Mitch Report
Antony Kaspi & Mark Ziemann
date generated: 2024-01-18
Background
Mitch performs unidimensional and multidimensional gene set enrichment analysis. The concept behind this dates to work by Cox and Mann (https://doi.org/10.1186/1471-2105-13-S16-S12). This implementation is suited to R based workflows of multi-omics datasets. This software was developed by Antony Kaspi and Mark Ziemann. Learn more about Mitch at the website: https://github.com/markziemann/Mitch
Input profiles
Here is the first few lines of the input profile.
| x | |
|---|---|
| A1BG | 0.0020388 |
| A1BG-AS1 | 0.0029418 |
| A1CF | -0.0015391 |
| A2M | -0.0004251 |
| A2M-AS1 | 0.0057066 |
| A2ML1 | 0.0000406 |
Here are some metrics about the input data profile:
| Profile metrics | |
|---|---|
| num_genesets | 1654 |
| num_genes_in_profile | 22007 |
| duplicated_genes_present | 0 |
| num_profile_genes_in_sets | 10383 |
| num_profile_genes_not_in_sets | 11624 |
Here is a plot of the input profiles. Note the dynamic ranges.
Here is the contour plot of the profile including all detected genes.
Input genesets
Here are some metrics about the gene sets used:
GMT file of genesets: c2.cp.reactome.v2023.1.Hs.symbols.gmt| Gene sets metrics | |
|---|---|
| num_genesets | 1654 |
| num_genesets_excluded | 365 |
| num_genesets_included | 1289 |
Differential pathway expression
Interactive enrichment scatterplot
Significance is calculated by -log10(p-value). All points shown are
FDR<0.05.
Significance is calculated by -log10(p-value). Top N sets shown
irrespective of FDR.
Results table
Top N= 50 gene sets
## Warning in kable_styling(., "hover", full_width = FALSE): Please specify format
## in kable. kableExtra can customize either HTML or LaTeX outputs. See
## https://haozhu233.github.io/kableExtra/ for details.| set | setSize | pANOVA | s.dist | p.adjustANOVA |
|---|---|---|---|---|
| REACTOME TRANSLATION | 278 | 4.49e-21 | -0.328 | 7.37e-18 |
| REACTOME METABOLISM OF RNA | 675 | 3.88e-19 | -0.202 | 3.18e-16 |
| REACTOME SRP DEPENDENT COTRANSLATIONAL PROTEIN TARGETING TO MEMBRANE | 105 | 7.75e-16 | -0.455 | 3.99e-13 |
| REACTOME EUKARYOTIC TRANSLATION INITIATION | 110 | 9.72e-16 | -0.443 | 3.99e-13 |
| REACTOME EUKARYOTIC TRANSLATION ELONGATION | 87 | 2.36e-14 | -0.473 | 7.76e-12 |
| REACTOME RESPONSE OF EIF2AK4 GCN2 TO AMINO ACID DEFICIENCY | 94 | 1.44e-13 | -0.441 | 3.93e-11 |
| REACTOME INFLUENZA INFECTION | 149 | 1.92e-13 | -0.349 | 4.50e-11 |
| REACTOME RRNA PROCESSING | 192 | 1.24e-12 | -0.297 | 2.54e-10 |
| REACTOME NONSENSE MEDIATED DECAY NMD | 107 | 2.43e-12 | -0.392 | 4.43e-10 |
| REACTOME REGULATION OF EXPRESSION OF SLITS AND ROBOS | 161 | 1.20e-10 | -0.294 | 1.97e-08 |
| REACTOME B WICH COMPLEX POSITIVELY REGULATES RRNA EXPRESSION | 84 | 2.49e-10 | -0.399 | 3.70e-08 |
| REACTOME SELENOAMINO ACID METABOLISM | 108 | 2.71e-10 | -0.352 | 3.70e-08 |
| REACTOME RNA POLYMERASE I PROMOTER ESCAPE | 83 | 2.53e-09 | -0.378 | 3.11e-07 |
| REACTOME CELLULAR RESPONSE TO STARVATION | 147 | 2.65e-09 | -0.284 | 3.11e-07 |
| REACTOME NEGATIVE EPIGENETIC REGULATION OF RRNA EXPRESSION | 100 | 3.83e-09 | -0.341 | 4.19e-07 |
| REACTOME SIRT1 NEGATIVELY REGULATES RRNA EXPRESSION | 60 | 4.19e-09 | -0.438 | 4.30e-07 |
| REACTOME CELLULAR RESPONSES TO STIMULI | 779 | 5.53e-09 | -0.123 | 5.34e-07 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN DIFFERENTIATION OF HSCS | 121 | 1.02e-08 | -0.301 | 9.18e-07 |
| REACTOME DNA REPLICATION PRE INITIATION | 150 | 1.06e-08 | -0.271 | 9.18e-07 |
| REACTOME ASSEMBLY OF THE ORC COMPLEX AT THE ORIGIN OF REPLICATION | 62 | 1.29e-08 | -0.418 | 9.83e-07 |
| REACTOME MEIOTIC RECOMBINATION | 80 | 1.30e-08 | -0.368 | 9.83e-07 |
| REACTOME ACTIVATED PKN1 STIMULATES TRANSCRIPTION OF AR ANDROGEN RECEPTOR REGULATED GENES KLK2 AND KLK3 | 59 | 1.32e-08 | -0.428 | 9.83e-07 |
| REACTOME INFECTIOUS DISEASE | 910 | 1.40e-08 | -0.111 | 9.99e-07 |
| REACTOME ACTIVATION OF THE MRNA UPON BINDING OF THE CAP BINDING COMPLEX AND EIFS AND SUBSEQUENT BINDING TO 43S | 53 | 4.23e-08 | -0.435 | 2.90e-06 |
| REACTOME DNA METHYLATION | 58 | 6.43e-08 | -0.410 | 4.22e-06 |
| REACTOME SIGNALING BY ROBO RECEPTORS | 206 | 7.05e-08 | -0.218 | 4.45e-06 |
| REACTOME SENESCENCE ASSOCIATED SECRETORY PHENOTYPE SASP | 104 | 7.62e-08 | -0.305 | 4.63e-06 |
| REACTOME PRC2 METHYLATES HISTONES AND DNA | 65 | 9.02e-08 | -0.383 | 5.15e-06 |
| REACTOME MITOCHONDRIAL TRANSLATION | 93 | 9.10e-08 | -0.321 | 5.15e-06 |
| REACTOME SARS COV 1 MODULATES HOST TRANSLATION MACHINERY | 33 | 1.01e-07 | -0.535 | 5.53e-06 |
| REACTOME POSITIVE EPIGENETIC REGULATION OF RRNA EXPRESSION | 98 | 1.10e-07 | -0.310 | 5.82e-06 |
| REACTOME DNA REPLICATION | 178 | 1.31e-07 | -0.229 | 6.73e-06 |
| REACTOME DEPOSITION OF NEW CENPA CONTAINING NUCLEOSOMES AT THE CENTROMERE | 66 | 2.70e-07 | -0.366 | 1.34e-05 |
| REACTOME ACTIVATION OF ANTERIOR HOX GENES IN HINDBRAIN DEVELOPMENT DURING EARLY EMBRYOGENESIS | 113 | 3.00e-07 | -0.279 | 1.45e-05 |
| REACTOME TRANSCRIPTIONAL REGULATION BY SMALL RNAS | 100 | 3.74e-07 | -0.294 | 1.75e-05 |
| REACTOME DISEASES OF PROGRAMMED CELL DEATH | 96 | 4.09e-07 | -0.299 | 1.87e-05 |
| REACTOME INHIBITION OF DNA RECOMBINATION AT TELOMERE | 63 | 4.98e-07 | -0.366 | 2.21e-05 |
| REACTOME CONDENSATION OF PROPHASE CHROMOSOMES | 66 | 6.18e-07 | -0.355 | 2.67e-05 |
| REACTOME TRANSCRIPTIONAL REGULATION OF GRANULOPOIESIS | 83 | 7.01e-07 | -0.315 | 2.91e-05 |
| REACTOME RNA POLYMERASE I TRANSCRIPTION | 102 | 7.09e-07 | -0.284 | 2.91e-05 |
| REACTOME G2 M CHECKPOINTS | 162 | 8.94e-07 | -0.224 | 3.58e-05 |
| REACTOME SARS COV 2 MODULATES HOST TRANSLATION MACHINERY | 46 | 9.30e-07 | -0.418 | 3.64e-05 |
| REACTOME REPRODUCTION | 136 | 1.12e-06 | -0.242 | 4.23e-05 |
| REACTOME RECOGNITION AND ASSOCIATION OF DNA GLYCOSYLASE WITH SITE CONTAINING AN AFFECTED PURINE | 52 | 1.13e-06 | -0.390 | 4.23e-05 |
| REACTOME HDACS DEACETYLATE HISTONES | 85 | 1.24e-06 | -0.304 | 4.53e-05 |
| REACTOME EPIGENETIC REGULATION OF GENE EXPRESSION | 138 | 1.27e-06 | -0.239 | 4.55e-05 |
| REACTOME PROCESSING OF CAPPED INTRON CONTAINING PRE MRNA | 263 | 1.31e-06 | -0.173 | 4.58e-05 |
| REACTOME HATS ACETYLATE HISTONES | 129 | 1.95e-06 | -0.243 | 6.55e-05 |
| REACTOME FORMATION OF THE BETA CATENIN TCF TRANSACTIVATING COMPLEX | 85 | 1.96e-06 | -0.298 | 6.55e-05 |
| REACTOME HCMV LATE EVENTS | 110 | 3.26e-06 | -0.257 | 1.07e-04 |
Results (complete table)
Click HERE to show results for all gene sets
| set | setSize | pANOVA | s.dist | p.adjustANOVA |
|---|---|---|---|---|
| REACTOME TRANSLATION | 278 | 4.49e-21 | -3.28e-01 | 7.37e-18 |
| REACTOME METABOLISM OF RNA | 675 | 3.88e-19 | -2.02e-01 | 3.18e-16 |
| REACTOME SRP DEPENDENT COTRANSLATIONAL PROTEIN TARGETING TO MEMBRANE | 105 | 7.75e-16 | -4.55e-01 | 3.99e-13 |
| REACTOME EUKARYOTIC TRANSLATION INITIATION | 110 | 9.72e-16 | -4.43e-01 | 3.99e-13 |
| REACTOME EUKARYOTIC TRANSLATION ELONGATION | 87 | 2.36e-14 | -4.73e-01 | 7.76e-12 |
| REACTOME RESPONSE OF EIF2AK4 GCN2 TO AMINO ACID DEFICIENCY | 94 | 1.44e-13 | -4.41e-01 | 3.93e-11 |
| REACTOME INFLUENZA INFECTION | 149 | 1.92e-13 | -3.49e-01 | 4.50e-11 |
| REACTOME RRNA PROCESSING | 192 | 1.24e-12 | -2.97e-01 | 2.54e-10 |
| REACTOME NONSENSE MEDIATED DECAY NMD | 107 | 2.43e-12 | -3.92e-01 | 4.43e-10 |
| REACTOME REGULATION OF EXPRESSION OF SLITS AND ROBOS | 161 | 1.20e-10 | -2.94e-01 | 1.97e-08 |
| REACTOME B WICH COMPLEX POSITIVELY REGULATES RRNA EXPRESSION | 84 | 2.49e-10 | -3.99e-01 | 3.70e-08 |
| REACTOME SELENOAMINO ACID METABOLISM | 108 | 2.71e-10 | -3.52e-01 | 3.70e-08 |
| REACTOME RNA POLYMERASE I PROMOTER ESCAPE | 83 | 2.53e-09 | -3.78e-01 | 3.11e-07 |
| REACTOME CELLULAR RESPONSE TO STARVATION | 147 | 2.65e-09 | -2.84e-01 | 3.11e-07 |
| REACTOME NEGATIVE EPIGENETIC REGULATION OF RRNA EXPRESSION | 100 | 3.83e-09 | -3.41e-01 | 4.19e-07 |
| REACTOME SIRT1 NEGATIVELY REGULATES RRNA EXPRESSION | 60 | 4.19e-09 | -4.38e-01 | 4.30e-07 |
| REACTOME CELLULAR RESPONSES TO STIMULI | 779 | 5.53e-09 | -1.23e-01 | 5.34e-07 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN DIFFERENTIATION OF HSCS | 121 | 1.02e-08 | -3.01e-01 | 9.18e-07 |
| REACTOME DNA REPLICATION PRE INITIATION | 150 | 1.06e-08 | -2.71e-01 | 9.18e-07 |
| REACTOME ASSEMBLY OF THE ORC COMPLEX AT THE ORIGIN OF REPLICATION | 62 | 1.29e-08 | -4.18e-01 | 9.83e-07 |
| REACTOME MEIOTIC RECOMBINATION | 80 | 1.30e-08 | -3.68e-01 | 9.83e-07 |
| REACTOME ACTIVATED PKN1 STIMULATES TRANSCRIPTION OF AR ANDROGEN RECEPTOR REGULATED GENES KLK2 AND KLK3 | 59 | 1.32e-08 | -4.28e-01 | 9.83e-07 |
| REACTOME INFECTIOUS DISEASE | 910 | 1.40e-08 | -1.11e-01 | 9.99e-07 |
| REACTOME ACTIVATION OF THE MRNA UPON BINDING OF THE CAP BINDING COMPLEX AND EIFS AND SUBSEQUENT BINDING TO 43S | 53 | 4.23e-08 | -4.35e-01 | 2.90e-06 |
| REACTOME DNA METHYLATION | 58 | 6.43e-08 | -4.10e-01 | 4.22e-06 |
| REACTOME SIGNALING BY ROBO RECEPTORS | 206 | 7.05e-08 | -2.18e-01 | 4.45e-06 |
| REACTOME SENESCENCE ASSOCIATED SECRETORY PHENOTYPE SASP | 104 | 7.62e-08 | -3.05e-01 | 4.63e-06 |
| REACTOME PRC2 METHYLATES HISTONES AND DNA | 65 | 9.02e-08 | -3.83e-01 | 5.15e-06 |
| REACTOME MITOCHONDRIAL TRANSLATION | 93 | 9.10e-08 | -3.21e-01 | 5.15e-06 |
| REACTOME SARS COV 1 MODULATES HOST TRANSLATION MACHINERY | 33 | 1.01e-07 | -5.35e-01 | 5.53e-06 |
| REACTOME POSITIVE EPIGENETIC REGULATION OF RRNA EXPRESSION | 98 | 1.10e-07 | -3.10e-01 | 5.82e-06 |
| REACTOME DNA REPLICATION | 178 | 1.31e-07 | -2.29e-01 | 6.73e-06 |
| REACTOME DEPOSITION OF NEW CENPA CONTAINING NUCLEOSOMES AT THE CENTROMERE | 66 | 2.70e-07 | -3.66e-01 | 1.34e-05 |
| REACTOME ACTIVATION OF ANTERIOR HOX GENES IN HINDBRAIN DEVELOPMENT DURING EARLY EMBRYOGENESIS | 113 | 3.00e-07 | -2.79e-01 | 1.45e-05 |
| REACTOME TRANSCRIPTIONAL REGULATION BY SMALL RNAS | 100 | 3.74e-07 | -2.94e-01 | 1.75e-05 |
| REACTOME DISEASES OF PROGRAMMED CELL DEATH | 96 | 4.09e-07 | -2.99e-01 | 1.87e-05 |
| REACTOME INHIBITION OF DNA RECOMBINATION AT TELOMERE | 63 | 4.98e-07 | -3.66e-01 | 2.21e-05 |
| REACTOME CONDENSATION OF PROPHASE CHROMOSOMES | 66 | 6.18e-07 | -3.55e-01 | 2.67e-05 |
| REACTOME TRANSCRIPTIONAL REGULATION OF GRANULOPOIESIS | 83 | 7.01e-07 | -3.15e-01 | 2.91e-05 |
| REACTOME RNA POLYMERASE I TRANSCRIPTION | 102 | 7.09e-07 | -2.84e-01 | 2.91e-05 |
| REACTOME G2 M CHECKPOINTS | 162 | 8.94e-07 | -2.24e-01 | 3.58e-05 |
| REACTOME SARS COV 2 MODULATES HOST TRANSLATION MACHINERY | 46 | 9.30e-07 | -4.18e-01 | 3.64e-05 |
| REACTOME REPRODUCTION | 136 | 1.12e-06 | -2.42e-01 | 4.23e-05 |
| REACTOME RECOGNITION AND ASSOCIATION OF DNA GLYCOSYLASE WITH SITE CONTAINING AN AFFECTED PURINE | 52 | 1.13e-06 | -3.90e-01 | 4.23e-05 |
| REACTOME HDACS DEACETYLATE HISTONES | 85 | 1.24e-06 | -3.04e-01 | 4.53e-05 |
| REACTOME EPIGENETIC REGULATION OF GENE EXPRESSION | 138 | 1.27e-06 | -2.39e-01 | 4.55e-05 |
| REACTOME PROCESSING OF CAPPED INTRON CONTAINING PRE MRNA | 263 | 1.31e-06 | -1.73e-01 | 4.58e-05 |
| REACTOME HATS ACETYLATE HISTONES | 129 | 1.95e-06 | -2.43e-01 | 6.55e-05 |
| REACTOME FORMATION OF THE BETA CATENIN TCF TRANSACTIVATING COMPLEX | 85 | 1.96e-06 | -2.98e-01 | 6.55e-05 |
| REACTOME HCMV LATE EVENTS | 110 | 3.26e-06 | -2.57e-01 | 1.07e-04 |
| REACTOME RHO GTPASES ACTIVATE PKNS | 86 | 4.52e-06 | -2.86e-01 | 1.45e-04 |
| REACTOME OXIDATIVE STRESS INDUCED SENESCENCE | 118 | 5.28e-06 | -2.43e-01 | 1.67e-04 |
| REACTOME PROCESSING OF DNA DOUBLE STRAND BREAK ENDS | 93 | 5.75e-06 | -2.72e-01 | 1.78e-04 |
| REACTOME ERCC6 CSB AND EHMT2 G9A POSITIVELY REGULATE RRNA EXPRESSION | 68 | 6.47e-06 | -3.16e-01 | 1.97e-04 |
| REACTOME CELL CYCLE CHECKPOINTS | 284 | 7.79e-06 | -1.54e-01 | 2.32e-04 |
| REACTOME MEIOSIS | 110 | 8.02e-06 | -2.46e-01 | 2.35e-04 |
| REACTOME UB SPECIFIC PROCESSING PROTEASES | 187 | 9.93e-06 | -1.87e-01 | 2.86e-04 |
| REACTOME G2 M DNA DAMAGE CHECKPOINT | 90 | 1.06e-05 | -2.69e-01 | 3.01e-04 |
| REACTOME SARS COV 1 HOST INTERACTIONS | 92 | 1.11e-05 | -2.65e-01 | 3.09e-04 |
| REACTOME DNA DAMAGE TELOMERE STRESS INDUCED SENESCENCE | 76 | 1.41e-05 | -2.88e-01 | 3.85e-04 |
| REACTOME AMYLOID FIBER FORMATION | 102 | 1.78e-05 | -2.46e-01 | 4.80e-04 |
| REACTOME BASE EXCISION REPAIR AP SITE FORMATION | 59 | 2.19e-05 | -3.19e-01 | 5.79e-04 |
| REACTOME ESTROGEN DEPENDENT GENE EXPRESSION | 140 | 2.75e-05 | -2.05e-01 | 7.18e-04 |
| REACTOME RUNX1 REGULATES GENES INVOLVED IN MEGAKARYOCYTE DIFFERENTIATION AND PLATELET FUNCTION | 90 | 3.51e-05 | -2.52e-01 | 9.00e-04 |
| REACTOME CHROMOSOME MAINTENANCE | 130 | 3.59e-05 | -2.10e-01 | 9.07e-04 |
| REACTOME GENE AND PROTEIN EXPRESSION BY JAK STAT SIGNALING AFTER INTERLEUKIN 12 STIMULATION | 35 | 3.90e-05 | -4.02e-01 | 9.71e-04 |
| REACTOME RESPIRATORY ELECTRON TRANSPORT ATP SYNTHESIS BY CHEMIOSMOTIC COUPLING AND HEAT PRODUCTION BY UNCOUPLING PROTEINS | 111 | 3.99e-05 | -2.26e-01 | 9.77e-04 |
| REACTOME CELL CYCLE | 666 | 4.13e-05 | -9.31e-02 | 9.97e-04 |
| REACTOME DEUBIQUITINATION | 260 | 4.21e-05 | -1.48e-01 | 9.99e-04 |
| REACTOME TELOMERE MAINTENANCE | 106 | 4.26e-05 | -2.30e-01 | 9.99e-04 |
| REACTOME TCF DEPENDENT SIGNALING IN RESPONSE TO WNT | 222 | 5.06e-05 | -1.58e-01 | 1.17e-03 |
| REACTOME HOMOLOGY DIRECTED REPAIR | 132 | 5.73e-05 | -2.03e-01 | 1.31e-03 |
| REACTOME MITOTIC PROPHASE | 134 | 5.94e-05 | -2.01e-01 | 1.34e-03 |
| REACTOME CELLULAR SENESCENCE | 189 | 6.26e-05 | -1.69e-01 | 1.39e-03 |
| REACTOME HCMV EARLY EVENTS | 128 | 7.45e-05 | -2.03e-01 | 1.63e-03 |
| REACTOME MRNA SPLICING | 197 | 7.70e-05 | -1.63e-01 | 1.66e-03 |
| REACTOME PRE NOTCH EXPRESSION AND PROCESSING | 112 | 7.89e-05 | -2.16e-01 | 1.68e-03 |
| REACTOME CELL CYCLE MITOTIC | 539 | 8.14e-05 | -9.92e-02 | 1.71e-03 |
| REACTOME MEIOTIC SYNAPSIS | 73 | 1.24e-04 | -2.60e-01 | 2.58e-03 |
| REACTOME SIGNALING BY NOTCH | 234 | 1.35e-04 | -1.45e-01 | 2.77e-03 |
| REACTOME SARS COV 2 HOST INTERACTIONS | 191 | 2.00e-04 | -1.56e-01 | 4.05e-03 |
| REACTOME M PHASE | 398 | 2.14e-04 | -1.08e-01 | 4.28e-03 |
| REACTOME GENE SILENCING BY RNA | 133 | 2.26e-04 | -1.85e-01 | 4.47e-03 |
| REACTOME RESPIRATORY ELECTRON TRANSPORT | 90 | 2.55e-04 | -2.23e-01 | 4.92e-03 |
| REACTOME DNA DOUBLE STRAND BREAK RESPONSE | 74 | 2.55e-04 | -2.46e-01 | 4.92e-03 |
| REACTOME ESR MEDIATED SIGNALING | 210 | 2.70e-04 | -1.46e-01 | 5.16e-03 |
| REACTOME RMTS METHYLATE HISTONE ARGININES | 72 | 3.03e-04 | -2.46e-01 | 5.72e-03 |
| REACTOME SARS COV 1 INFECTION | 136 | 3.20e-04 | -1.79e-01 | 5.96e-03 |
| REACTOME HCMV INFECTION | 152 | 3.85e-04 | -1.67e-01 | 7.10e-03 |
| REACTOME BASE EXCISION REPAIR | 87 | 3.96e-04 | -2.20e-01 | 7.22e-03 |
| REACTOME BETA DEFENSINS | 27 | 4.42e-04 | -3.91e-01 | 7.97e-03 |
| REACTOME UCH PROTEINASES | 99 | 4.47e-04 | -2.04e-01 | 7.99e-03 |
| REACTOME NONHOMOLOGOUS END JOINING NHEJ | 64 | 5.05e-04 | -2.51e-01 | 8.92e-03 |
| REACTOME DNA REPAIR | 321 | 5.28e-04 | -1.13e-01 | 9.23e-03 |
| REACTOME EXTRACELLULAR MATRIX ORGANIZATION | 291 | 5.63e-04 | 1.18e-01 | 9.72e-03 |
| REACTOME INTERLEUKIN 12 SIGNALING | 43 | 5.68e-04 | -3.04e-01 | 9.72e-03 |
| REACTOME REGULATION OF TP53 ACTIVITY THROUGH PHOSPHORYLATION | 89 | 6.25e-04 | -2.10e-01 | 1.05e-02 |
| REACTOME RHO GTPASE EFFECTORS | 305 | 6.30e-04 | -1.14e-01 | 1.05e-02 |
| REACTOME METABOLISM OF AMINO ACIDS AND DERIVATIVES | 353 | 8.40e-04 | -1.03e-01 | 1.39e-02 |
| REACTOME DNA DOUBLE STRAND BREAK REPAIR | 162 | 9.84e-04 | -1.50e-01 | 1.62e-02 |
| REACTOME TRANSCRIPTIONAL REGULATION BY RUNX3 | 94 | 1.08e-03 | -1.95e-01 | 1.76e-02 |
| REACTOME SCF SKP2 MEDIATED DEGRADATION OF P27 P21 | 59 | 1.11e-03 | -2.45e-01 | 1.79e-02 |
| REACTOME RNA POLYMERASE II TRANSCRIPTION | 1336 | 1.18e-03 | -5.29e-02 | 1.87e-02 |
| REACTOME INTERLEUKIN 12 FAMILY SIGNALING | 53 | 1.21e-03 | -2.57e-01 | 1.90e-02 |
| REACTOME SIGNALING BY WNT | 318 | 1.22e-03 | -1.05e-01 | 1.91e-02 |
| REACTOME MAPK6 MAPK4 SIGNALING | 91 | 1.35e-03 | -1.94e-01 | 2.08e-02 |
| REACTOME DEGRADATION OF THE EXTRACELLULAR MATRIX | 134 | 1.35e-03 | 1.60e-01 | 2.08e-02 |
| REACTOME REGULATION OF RUNX3 EXPRESSION AND ACTIVITY | 54 | 1.53e-03 | -2.49e-01 | 2.32e-02 |
| REACTOME DEVELOPMENTAL BIOLOGY | 1115 | 1.95e-03 | -5.50e-02 | 2.94e-02 |
| REACTOME PROTEIN UBIQUITINATION | 76 | 2.60e-03 | -2.00e-01 | 3.88e-02 |
| REACTOME DAP12 INTERACTIONS | 37 | 2.64e-03 | -2.86e-01 | 3.91e-02 |
| REACTOME ASSEMBLY OF COLLAGEN FIBRILS AND OTHER MULTIMERIC STRUCTURES | 59 | 2.78e-03 | 2.25e-01 | 4.07e-02 |
| REACTOME DAP12 SIGNALING | 27 | 2.88e-03 | -3.31e-01 | 4.18e-02 |
| REACTOME CYTOKINE SIGNALING IN IMMUNE SYSTEM | 688 | 3.01e-03 | -6.63e-02 | 4.33e-02 |
| REACTOME SIGNALING BY INTERLEUKINS | 444 | 3.04e-03 | -8.20e-02 | 4.34e-02 |
| REACTOME THE CITRIC ACID TCA CYCLE AND RESPIRATORY ELECTRON TRANSPORT | 159 | 3.16e-03 | -1.36e-01 | 4.47e-02 |
| REACTOME E3 UBIQUITIN LIGASES UBIQUITINATE TARGET PROTEINS | 58 | 3.28e-03 | -2.23e-01 | 4.60e-02 |
| REACTOME DEFECTIVE CFTR CAUSES CYSTIC FIBROSIS | 60 | 3.47e-03 | -2.18e-01 | 4.82e-02 |
| REACTOME NEURONAL SYSTEM | 388 | 3.49e-03 | 8.64e-02 | 4.82e-02 |
| REACTOME SARS COV INFECTIONS | 392 | 3.71e-03 | -8.54e-02 | 5.07e-02 |
| REACTOME DEFENSINS | 33 | 3.87e-03 | -2.91e-01 | 5.25e-02 |
| REACTOME SIGNALING BY GPCR | 673 | 4.33e-03 | 6.45e-02 | 5.82e-02 |
| REACTOME REGULATION OF MRNA STABILITY BY PROTEINS THAT BIND AU RICH ELEMENTS | 86 | 4.58e-03 | -1.77e-01 | 6.11e-02 |
| REACTOME NERVOUS SYSTEM DEVELOPMENT | 552 | 4.64e-03 | -7.05e-02 | 6.15e-02 |
| REACTOME COLLAGEN FORMATION | 88 | 4.83e-03 | 1.74e-01 | 6.34e-02 |
| REACTOME TRANSCRIPTIONAL REGULATION BY RUNX1 | 229 | 4.98e-03 | -1.08e-01 | 6.48e-02 |
| REACTOME OLFACTORY SIGNALING PATHWAY | 348 | 5.12e-03 | -8.73e-02 | 6.62e-02 |
| REACTOME SARS COV 2 INFECTION | 281 | 5.35e-03 | -9.65e-02 | 6.86e-02 |
| REACTOME NEGATIVE REGULATION OF NOTCH4 SIGNALING | 53 | 5.51e-03 | -2.20e-01 | 7.01e-02 |
| REACTOME GLUCURONIDATION | 23 | 5.70e-03 | -3.33e-01 | 7.20e-02 |
| REACTOME POST TRANSLATIONAL PROTEIN MODIFICATION | 1356 | 5.87e-03 | -4.46e-02 | 7.36e-02 |
| REACTOME CHROMATIN MODIFYING ENZYMES | 252 | 6.51e-03 | -9.95e-02 | 8.09e-02 |
| REACTOME METALLOPROTEASE DUBS | 36 | 7.46e-03 | -2.58e-01 | 9.18e-02 |
| REACTOME TCR SIGNALING | 113 | 7.50e-03 | -1.46e-01 | 9.18e-02 |
| REACTOME SIGNALING BY NOTCH4 | 80 | 7.60e-03 | -1.73e-01 | 9.25e-02 |
| REACTOME NGF STIMULATED TRANSCRIPTION | 38 | 7.94e-03 | -2.49e-01 | 9.58e-02 |
| REACTOME RRNA MODIFICATION IN THE NUCLEUS AND CYTOSOL | 58 | 8.11e-03 | -2.01e-01 | 9.72e-02 |
| REACTOME ADAPTIVE IMMUNE SYSTEM | 729 | 8.33e-03 | -5.74e-02 | 9.91e-02 |
| REACTOME FLT3 SIGNALING THROUGH SRC FAMILY KINASES | 6 | 8.43e-03 | -6.21e-01 | 9.96e-02 |
| REACTOME SIGNALING BY NUCLEAR RECEPTORS | 283 | 8.78e-03 | -9.05e-02 | 1.03e-01 |
| REACTOME STABILIZATION OF P53 | 56 | 9.48e-03 | -2.00e-01 | 1.10e-01 |
| REACTOME FLT3 SIGNALING BY CBL MUTANTS | 7 | 9.64e-03 | -5.65e-01 | 1.11e-01 |
| REACTOME PROTEIN LOCALIZATION | 153 | 9.84e-03 | -1.21e-01 | 1.13e-01 |
| REACTOME NUCLEAR EVENTS MEDIATED BY NFE2L2 | 77 | 1.03e-02 | -1.69e-01 | 1.17e-01 |
| REACTOME IMMUNOREGULATORY INTERACTIONS BETWEEN A LYMPHOID AND A NON LYMPHOID CELL | 122 | 1.11e-02 | -1.33e-01 | 1.26e-01 |
| REACTOME PARACETAMOL ADME | 26 | 1.15e-02 | 2.86e-01 | 1.29e-01 |
| REACTOME MITOTIC G1 PHASE AND G1 S TRANSITION | 145 | 1.16e-02 | -1.21e-01 | 1.30e-01 |
| REACTOME COMPLEX I BIOGENESIS | 49 | 1.22e-02 | -2.07e-01 | 1.34e-01 |
| REACTOME CYTOSOLIC SULFONATION OF SMALL MOLECULES | 22 | 1.22e-02 | 3.09e-01 | 1.34e-01 |
| REACTOME S PHASE | 159 | 1.23e-02 | -1.15e-01 | 1.34e-01 |
| REACTOME TRAF6 MEDIATED IRF7 ACTIVATION IN TLR7 8 OR 9 SIGNALING | 11 | 1.24e-02 | -4.36e-01 | 1.34e-01 |
| REACTOME RNA POLYMERASE I TRANSCRIPTION TERMINATION | 30 | 1.28e-02 | -2.63e-01 | 1.38e-01 |
| REACTOME DECTIN 1 MEDIATED NONCANONICAL NF KB SIGNALING | 61 | 1.28e-02 | -1.84e-01 | 1.38e-01 |
| REACTOME CYCLIN A CDK2 ASSOCIATED EVENTS AT S PHASE ENTRY | 84 | 1.33e-02 | -1.56e-01 | 1.41e-01 |
| REACTOME SIGNALING BY EGFR IN CANCER | 25 | 1.34e-02 | -2.86e-01 | 1.41e-01 |
| REACTOME POTASSIUM CHANNELS | 102 | 1.36e-02 | 1.41e-01 | 1.42e-01 |
| REACTOME ORC1 REMOVAL FROM CHROMATIN | 70 | 1.36e-02 | -1.70e-01 | 1.42e-01 |
| REACTOME CONDENSATION OF PROMETAPHASE CHROMOSOMES | 11 | 1.36e-02 | -4.29e-01 | 1.42e-01 |
| REACTOME TERMINATION OF TRANSLESION DNA SYNTHESIS | 32 | 1.38e-02 | -2.52e-01 | 1.42e-01 |
| REACTOME REGULATION OF SIGNALING BY CBL | 22 | 1.42e-02 | -3.02e-01 | 1.46e-01 |
| REACTOME DAG AND IP3 SIGNALING | 40 | 1.43e-02 | 2.24e-01 | 1.46e-01 |
| REACTOME CLASS A 1 RHODOPSIN LIKE RECEPTORS | 312 | 1.54e-02 | 7.97e-02 | 1.56e-01 |
| REACTOME AUF1 HNRNP D0 BINDS AND DESTABILIZES MRNA | 54 | 1.57e-02 | -1.90e-01 | 1.58e-01 |
| REACTOME ANTIVIRAL MECHANISM BY IFN STIMULATED GENES | 80 | 1.60e-02 | -1.56e-01 | 1.59e-01 |
| REACTOME TRANSPORT OF INORGANIC CATIONS ANIONS AND AMINO ACIDS OLIGOPEPTIDES | 101 | 1.62e-02 | 1.39e-01 | 1.59e-01 |
| REACTOME APC C MEDIATED DEGRADATION OF CELL CYCLE PROTEINS | 87 | 1.63e-02 | -1.49e-01 | 1.59e-01 |
| REACTOME INTERLEUKIN 7 SIGNALING | 31 | 1.63e-02 | -2.49e-01 | 1.59e-01 |
| REACTOME INTEGRATION OF ENERGY METABOLISM | 105 | 1.63e-02 | 1.36e-01 | 1.59e-01 |
| REACTOME NEGATIVE REGULATION OF FLT3 | 15 | 1.69e-02 | -3.56e-01 | 1.63e-01 |
| REACTOME REGULATION OF PYRUVATE DEHYDROGENASE PDH COMPLEX | 14 | 1.69e-02 | 3.69e-01 | 1.63e-01 |
| REACTOME PROGRAMMED CELL DEATH | 204 | 1.75e-02 | -9.65e-02 | 1.67e-01 |
| REACTOME CREB1 PHOSPHORYLATION THROUGH THE ACTIVATION OF CAMKII CAMKK CAMKIV CASCASDE | 8 | 1.77e-02 | 4.84e-01 | 1.67e-01 |
| REACTOME G1 S DNA DAMAGE CHECKPOINTS | 67 | 1.77e-02 | -1.67e-01 | 1.67e-01 |
| REACTOME FASL CD95L SIGNALING | 5 | 1.77e-02 | -6.12e-01 | 1.67e-01 |
| REACTOME REMOVAL OF AMINOTERMINAL PROPEPTIDES FROM GAMMA CARBOXYLATED PROTEINS | 8 | 1.79e-02 | 4.83e-01 | 1.68e-01 |
| REACTOME TRANSLESION SYNTHESIS BY Y FAMILY DNA POLYMERASES BYPASSES LESIONS ON DNA TEMPLATE | 39 | 1.84e-02 | -2.18e-01 | 1.70e-01 |
| REACTOME ONCOGENE INDUCED SENESCENCE | 35 | 1.85e-02 | -2.30e-01 | 1.70e-01 |
| REACTOME BBSOME MEDIATED CARGO TARGETING TO CILIUM | 23 | 1.86e-02 | -2.84e-01 | 1.70e-01 |
| REACTOME RIPK1 MEDIATED REGULATED NECROSIS | 30 | 1.86e-02 | -2.48e-01 | 1.70e-01 |
| REACTOME ANTIGEN PRESENTATION FOLDING ASSEMBLY AND PEPTIDE LOADING OF CLASS I MHC | 28 | 1.86e-02 | -2.57e-01 | 1.70e-01 |
| REACTOME SYNTHESIS OF LEUKOTRIENES LT AND EOXINS EX | 21 | 1.88e-02 | -2.96e-01 | 1.71e-01 |
| REACTOME METABOLISM OF CARBOHYDRATES | 279 | 1.93e-02 | 8.14e-02 | 1.74e-01 |
| REACTOME SLC MEDIATED TRANSMEMBRANE TRANSPORT | 236 | 1.95e-02 | 8.83e-02 | 1.74e-01 |
| REACTOME VOLTAGE GATED POTASSIUM CHANNELS | 42 | 1.95e-02 | 2.08e-01 | 1.74e-01 |
| REACTOME REGULATION OF TP53 ACTIVITY THROUGH ASSOCIATION WITH CO FACTORS | 14 | 1.97e-02 | 3.60e-01 | 1.75e-01 |
| REACTOME UPTAKE OF DIETARY COBALAMINS INTO ENTEROCYTES | 9 | 2.01e-02 | 4.47e-01 | 1.78e-01 |
| REACTOME SCF BETA TRCP MEDIATED DEGRADATION OF EMI1 | 54 | 2.03e-02 | -1.83e-01 | 1.78e-01 |
| REACTOME MRNA SPLICING MINOR PATHWAY | 49 | 2.06e-02 | -1.91e-01 | 1.80e-01 |
| REACTOME CELLULAR RESPONSE TO HYPOXIA | 74 | 2.07e-02 | -1.56e-01 | 1.80e-01 |
| REACTOME MUSCLE CONTRACTION | 197 | 2.12e-02 | 9.52e-02 | 1.83e-01 |
| REACTOME ZINC EFFLUX AND COMPARTMENTALIZATION BY THE SLC30 FAMILY | 5 | 2.14e-02 | -5.94e-01 | 1.84e-01 |
| REACTOME FLT3 SIGNALING | 38 | 2.25e-02 | -2.14e-01 | 1.92e-01 |
| REACTOME NEGATIVE REGULATORS OF DDX58 IFIH1 SIGNALING | 34 | 2.26e-02 | -2.26e-01 | 1.92e-01 |
| REACTOME NEDDYLATION | 235 | 2.30e-02 | -8.61e-02 | 1.95e-01 |
| REACTOME FORMATION OF TC NER PRE INCISION COMPLEX | 51 | 2.32e-02 | -1.84e-01 | 1.95e-01 |
| REACTOME HIV INFECTION | 223 | 2.34e-02 | -8.81e-02 | 1.96e-01 |
| REACTOME G PROTEIN MEDIATED EVENTS | 53 | 2.56e-02 | 1.77e-01 | 2.13e-01 |
| REACTOME ADRENOCEPTORS | 9 | 2.58e-02 | -4.29e-01 | 2.14e-01 |
| REACTOME DNA DAMAGE BYPASS | 47 | 2.69e-02 | -1.87e-01 | 2.21e-01 |
| REACTOME STRIATED MUSCLE CONTRACTION | 35 | 2.70e-02 | 2.16e-01 | 2.21e-01 |
| REACTOME SYNTHESIS OF DNA | 119 | 2.71e-02 | -1.17e-01 | 2.21e-01 |
| REACTOME NUCLEOTIDE EXCISION REPAIR | 107 | 2.72e-02 | -1.24e-01 | 2.21e-01 |
| REACTOME CROSSLINKING OF COLLAGEN FIBRILS | 16 | 2.76e-02 | 3.18e-01 | 2.23e-01 |
| REACTOME TNFR2 NON CANONICAL NF KB PATHWAY | 96 | 2.79e-02 | -1.30e-01 | 2.24e-01 |
| REACTOME ACTIVATION OF C3 AND C5 | 6 | 2.83e-02 | 5.17e-01 | 2.27e-01 |
| REACTOME FGFR3 LIGAND BINDING AND ACTIVATION | 12 | 2.84e-02 | 3.65e-01 | 2.27e-01 |
| REACTOME SIGNALING BY THE B CELL RECEPTOR BCR | 106 | 2.91e-02 | -1.23e-01 | 2.31e-01 |
| REACTOME STAT5 ACTIVATION | 7 | 2.93e-02 | -4.76e-01 | 2.32e-01 |
| REACTOME SYNTHESIS SECRETION AND INACTIVATION OF GLUCOSE DEPENDENT INSULINOTROPIC POLYPEPTIDE GIP | 12 | 2.97e-02 | -3.62e-01 | 2.33e-01 |
| REACTOME DNA DAMAGE RECOGNITION IN GG NER | 36 | 3.00e-02 | -2.09e-01 | 2.34e-01 |
| REACTOME FORMATION OF ATP BY CHEMIOSMOTIC COUPLING | 16 | 3.03e-02 | -3.13e-01 | 2.34e-01 |
| REACTOME ABC TRANSPORTER DISORDERS | 76 | 3.05e-02 | -1.44e-01 | 2.34e-01 |
| REACTOME SWITCHING OF ORIGINS TO A POST REPLICATIVE STATE | 91 | 3.06e-02 | -1.31e-01 | 2.34e-01 |
| REACTOME SEPARATION OF SISTER CHROMATIDS | 184 | 3.06e-02 | -9.24e-02 | 2.34e-01 |
| REACTOME HDR THROUGH SINGLE STRAND ANNEALING SSA | 37 | 3.07e-02 | -2.05e-01 | 2.34e-01 |
| REACTOME ACTIVATION OF THE PHOTOTRANSDUCTION CASCADE | 11 | 3.12e-02 | 3.75e-01 | 2.37e-01 |
| REACTOME DUAL INCISION IN TC NER | 63 | 3.13e-02 | -1.57e-01 | 2.37e-01 |
| REACTOME DEGRADATION OF BETA CATENIN BY THE DESTRUCTION COMPLEX | 83 | 3.26e-02 | -1.36e-01 | 2.46e-01 |
| REACTOME TRANSPORT OF VITAMINS NUCLEOSIDES AND RELATED MOLECULES | 38 | 3.37e-02 | 1.99e-01 | 2.52e-01 |
| REACTOME N GLYCAN ANTENNAE ELONGATION IN THE MEDIAL TRANS GOLGI | 26 | 3.37e-02 | 2.41e-01 | 2.52e-01 |
| REACTOME THE ROLE OF GTSE1 IN G2 M PROGRESSION AFTER G2 CHECKPOINT | 77 | 3.43e-02 | -1.39e-01 | 2.55e-01 |
| REACTOME TRANSCRIPTION COUPLED NUCLEOTIDE EXCISION REPAIR TC NER | 76 | 3.44e-02 | -1.40e-01 | 2.55e-01 |
| REACTOME CA DEPENDENT EVENTS | 36 | 3.50e-02 | 2.03e-01 | 2.57e-01 |
| REACTOME HDL CLEARANCE | 5 | 3.50e-02 | 5.44e-01 | 2.57e-01 |
| REACTOME INNATE IMMUNE SYSTEM | 1002 | 3.52e-02 | -3.93e-02 | 2.57e-01 |
| REACTOME REGULATION OF RUNX2 EXPRESSION AND ACTIVITY | 72 | 3.54e-02 | -1.43e-01 | 2.57e-01 |
| REACTOME MITOTIC METAPHASE AND ANAPHASE | 228 | 3.62e-02 | -8.05e-02 | 2.62e-01 |
| REACTOME G ALPHA I SIGNALLING EVENTS | 304 | 3.68e-02 | 6.96e-02 | 2.65e-01 |
| REACTOME SCAVENGING BY CLASS A RECEPTORS | 19 | 3.77e-02 | -2.75e-01 | 2.71e-01 |
| REACTOME RNA POLYMERASE II TRANSCRIPTION TERMINATION | 62 | 3.87e-02 | -1.52e-01 | 2.76e-01 |
| REACTOME DEGRADATION OF DVL | 56 | 3.89e-02 | -1.60e-01 | 2.76e-01 |
| REACTOME HEDGEHOG LIGAND BIOGENESIS | 64 | 3.91e-02 | -1.49e-01 | 2.76e-01 |
| REACTOME TRAFFICKING OF GLUR2 CONTAINING AMPA RECEPTORS | 15 | 3.94e-02 | 3.07e-01 | 2.76e-01 |
| REACTOME EICOSANOIDS | 12 | 3.94e-02 | -3.43e-01 | 2.76e-01 |
| REACTOME STAT5 ACTIVATION DOWNSTREAM OF FLT3 ITD MUTANTS | 10 | 3.99e-02 | -3.75e-01 | 2.77e-01 |
| REACTOME ANTIMICROBIAL PEPTIDES | 76 | 3.99e-02 | -1.36e-01 | 2.77e-01 |
| REACTOME CAMK IV MEDIATED PHOSPHORYLATION OF CREB | 10 | 4.00e-02 | 3.75e-01 | 2.77e-01 |
| REACTOME GPCR LIGAND BINDING | 444 | 4.03e-02 | 5.68e-02 | 2.78e-01 |
| REACTOME KERATINIZATION | 210 | 4.07e-02 | 8.19e-02 | 2.80e-01 |
| REACTOME TRISTETRAPROLIN TTP ZFP36 BINDS AND DESTABILIZES MRNA | 17 | 4.11e-02 | -2.86e-01 | 2.81e-01 |
| REACTOME DEGRADATION OF AXIN | 54 | 4.14e-02 | -1.60e-01 | 2.82e-01 |
| REACTOME NUCLEAR EVENTS KINASE AND TRANSCRIPTION FACTOR ACTIVATION | 59 | 4.30e-02 | -1.52e-01 | 2.91e-01 |
| REACTOME NEUROTRANSMITTER RECEPTORS AND POSTSYNAPTIC SIGNAL TRANSMISSION | 193 | 4.31e-02 | 8.44e-02 | 2.91e-01 |
| REACTOME GAB1 SIGNALOSOME | 17 | 4.37e-02 | -2.83e-01 | 2.94e-01 |
| REACTOME SYNTHESIS OF EPOXY EET AND DIHYDROXYEICOSATRIENOIC ACIDS DHET | 8 | 4.43e-02 | -4.11e-01 | 2.97e-01 |
| REACTOME INTERLEUKIN 36 PATHWAY | 7 | 4.51e-02 | 4.37e-01 | 3.01e-01 |
| REACTOME COLLAGEN DEGRADATION | 61 | 4.58e-02 | 1.48e-01 | 3.04e-01 |
| REACTOME INTERLEUKIN 1 SIGNALING | 110 | 4.59e-02 | -1.10e-01 | 3.04e-01 |
| REACTOME SNRNP ASSEMBLY | 53 | 4.63e-02 | -1.58e-01 | 3.05e-01 |
| REACTOME TYPE I HEMIDESMOSOME ASSEMBLY | 11 | 4.66e-02 | 3.47e-01 | 3.05e-01 |
| REACTOME DEGRADATION OF GLI1 BY THE PROTEASOME | 59 | 4.66e-02 | -1.50e-01 | 3.05e-01 |
| REACTOME HOST INTERACTIONS OF HIV FACTORS | 127 | 4.75e-02 | -1.02e-01 | 3.08e-01 |
| REACTOME CONSTITUTIVE SIGNALING BY LIGAND RESPONSIVE EGFR CANCER VARIANTS | 19 | 4.75e-02 | -2.63e-01 | 3.08e-01 |
| REACTOME COLLAGEN BIOSYNTHESIS AND MODIFYING ENZYMES | 65 | 4.76e-02 | 1.42e-01 | 3.08e-01 |
| REACTOME DEACTIVATION OF THE BETA CATENIN TRANSACTIVATING COMPLEX | 39 | 4.84e-02 | -1.83e-01 | 3.10e-01 |
| REACTOME APOPTOSIS | 173 | 4.84e-02 | -8.70e-02 | 3.10e-01 |
| REACTOME ANTIGEN PROCESSING CROSS PRESENTATION | 98 | 4.85e-02 | -1.15e-01 | 3.10e-01 |
| REACTOME RNA POLYMERASE III TRANSCRIPTION INITIATION FROM TYPE 3 PROMOTER | 28 | 4.93e-02 | -2.15e-01 | 3.14e-01 |
| REACTOME FLT3 SIGNALING IN DISEASE | 28 | 4.95e-02 | -2.14e-01 | 3.14e-01 |
| REACTOME APC C CDH1 MEDIATED DEGRADATION OF CDC20 AND OTHER APC C CDH1 TARGETED PROTEINS IN LATE MITOSIS EARLY G1 | 73 | 4.98e-02 | -1.33e-01 | 3.15e-01 |
| REACTOME AKT PHOSPHORYLATES TARGETS IN THE NUCLEUS | 9 | 5.08e-02 | 3.76e-01 | 3.19e-01 |
| REACTOME RUNX3 REGULATES WNT SIGNALING | 8 | 5.08e-02 | -3.99e-01 | 3.19e-01 |
| REACTOME RNA POLYMERASE II TRANSCRIBES SNRNA GENES | 77 | 5.12e-02 | -1.29e-01 | 3.20e-01 |
| REACTOME FRUCTOSE CATABOLISM | 5 | 5.18e-02 | 5.02e-01 | 3.20e-01 |
| REACTOME FERTILIZATION | 26 | 5.21e-02 | -2.20e-01 | 3.20e-01 |
| REACTOME REGULATION OF KIT SIGNALING | 16 | 5.22e-02 | -2.80e-01 | 3.20e-01 |
| REACTOME FGFR1 LIGAND BINDING AND ACTIVATION | 15 | 5.23e-02 | 2.89e-01 | 3.20e-01 |
| REACTOME PEPTIDE LIGAND BINDING RECEPTORS | 188 | 5.23e-02 | 8.21e-02 | 3.20e-01 |
| REACTOME ASPIRIN ADME | 42 | 5.25e-02 | -1.73e-01 | 3.20e-01 |
| REACTOME RECYCLING OF EIF2 GDP | 7 | 5.27e-02 | -4.23e-01 | 3.20e-01 |
| REACTOME AQUAPORIN MEDIATED TRANSPORT | 51 | 5.28e-02 | 1.57e-01 | 3.20e-01 |
| REACTOME ASYMMETRIC LOCALIZATION OF PCP PROTEINS | 63 | 5.31e-02 | -1.41e-01 | 3.21e-01 |
| REACTOME PHOSPHOLIPASE C MEDIATED CASCADE FGFR2 | 17 | 5.35e-02 | 2.70e-01 | 3.22e-01 |
| REACTOME PERK REGULATES GENE EXPRESSION | 31 | 5.38e-02 | -2.00e-01 | 3.23e-01 |
| REACTOME DEFECTIVE CSF2RB CAUSES SMDP5 | 7 | 5.40e-02 | 4.21e-01 | 3.23e-01 |
| REACTOME DISEASES ASSOCIATED WITH SURFACTANT METABOLISM | 9 | 5.44e-02 | 3.70e-01 | 3.23e-01 |
| REACTOME NUCLEAR EVENTS STIMULATED BY ALK SIGNALING IN CANCER | 18 | 5.49e-02 | -2.61e-01 | 3.25e-01 |
| REACTOME HOMOLOGOUS DNA PAIRING AND STRAND EXCHANGE | 43 | 5.53e-02 | -1.69e-01 | 3.27e-01 |
| REACTOME CLASS I MHC MEDIATED ANTIGEN PROCESSING PRESENTATION | 361 | 5.58e-02 | -5.86e-02 | 3.28e-01 |
| REACTOME SYNTHESIS OF ACTIVE UBIQUITIN ROLES OF E1 AND E2 ENZYMES | 27 | 5.62e-02 | -2.12e-01 | 3.28e-01 |
| REACTOME SEROTONIN RECEPTORS | 11 | 5.62e-02 | 3.32e-01 | 3.28e-01 |
| REACTOME GAMMA CARBOXYLATION TRANSPORT AND AMINO TERMINAL CLEAVAGE OF PROTEINS | 9 | 5.72e-02 | 3.66e-01 | 3.31e-01 |
| REACTOME FATTY ACIDS | 15 | 5.72e-02 | -2.84e-01 | 3.31e-01 |
| REACTOME MAPK FAMILY SIGNALING CASCADES | 314 | 5.73e-02 | -6.24e-02 | 3.31e-01 |
| REACTOME ABC FAMILY PROTEINS MEDIATED TRANSPORT | 99 | 5.82e-02 | -1.10e-01 | 3.35e-01 |
| REACTOME NRAGE SIGNALS DEATH THROUGH JNK | 53 | 5.86e-02 | 1.50e-01 | 3.36e-01 |
| REACTOME ROLE OF PHOSPHOLIPIDS IN PHAGOCYTOSIS | 24 | 5.87e-02 | 2.23e-01 | 3.36e-01 |
| REACTOME INTERLEUKIN 10 SIGNALING | 43 | 6.01e-02 | -1.66e-01 | 3.42e-01 |
| REACTOME FGFRL1 MODULATION OF FGFR1 SIGNALING | 13 | 6.06e-02 | 3.01e-01 | 3.44e-01 |
| REACTOME VXPX CARGO TARGETING TO CILIUM | 20 | 6.09e-02 | 2.42e-01 | 3.45e-01 |
| REACTOME REGULATION OF TP53 ACTIVITY THROUGH METHYLATION | 19 | 6.15e-02 | -2.48e-01 | 3.47e-01 |
| REACTOME FORMATION OF THE CORNIFIED ENVELOPE | 125 | 6.16e-02 | 9.68e-02 | 3.47e-01 |
| REACTOME REGULATION OF PTEN STABILITY AND ACTIVITY | 67 | 6.23e-02 | -1.32e-01 | 3.49e-01 |
| REACTOME TYROSINE CATABOLISM | 5 | 6.29e-02 | 4.80e-01 | 3.52e-01 |
| REACTOME MITOCHONDRIAL PROTEIN IMPORT | 58 | 6.32e-02 | -1.41e-01 | 3.52e-01 |
| REACTOME TRAFFICKING OF AMPA RECEPTORS | 29 | 6.41e-02 | 1.99e-01 | 3.54e-01 |
| REACTOME NONCANONICAL ACTIVATION OF NOTCH3 | 8 | 6.41e-02 | -3.78e-01 | 3.54e-01 |
| REACTOME FC EPSILON RECEPTOR FCERI SIGNALING | 127 | 6.44e-02 | -9.50e-02 | 3.55e-01 |
| REACTOME INTERFERON ALPHA BETA SIGNALING | 70 | 6.57e-02 | -1.27e-01 | 3.61e-01 |
| REACTOME ACTIVATION OF RAC1 DOWNSTREAM OF NMDARS | 7 | 6.61e-02 | 4.01e-01 | 3.62e-01 |
| REACTOME DISSOLUTION OF FIBRIN CLOT | 13 | 6.63e-02 | 2.94e-01 | 3.62e-01 |
| REACTOME CYCLIN D ASSOCIATED EVENTS IN G1 | 46 | 6.68e-02 | -1.56e-01 | 3.62e-01 |
| REACTOME TRNA MODIFICATION IN THE MITOCHONDRION | 8 | 6.69e-02 | -3.74e-01 | 3.62e-01 |
| REACTOME GLYCOSAMINOGLYCAN METABOLISM | 118 | 6.73e-02 | 9.75e-02 | 3.62e-01 |
| REACTOME TICAM1 DEPENDENT ACTIVATION OF IRF3 IRF7 | 12 | 6.75e-02 | -3.05e-01 | 3.62e-01 |
| REACTOME DISEASES OF DNA REPAIR | 51 | 6.75e-02 | -1.48e-01 | 3.62e-01 |
| REACTOME SHC1 EVENTS IN EGFR SIGNALING | 14 | 6.81e-02 | -2.82e-01 | 3.64e-01 |
| REACTOME POST TRANSLATIONAL MODIFICATION SYNTHESIS OF GPI ANCHORED PROTEINS | 91 | 6.87e-02 | -1.10e-01 | 3.66e-01 |
| REACTOME HDR THROUGH HOMOLOGOUS RECOMBINATION HRR | 66 | 6.97e-02 | -1.29e-01 | 3.70e-01 |
| REACTOME TNFR1 INDUCED NFKAPPAB SIGNALING PATHWAY | 30 | 7.01e-02 | -1.91e-01 | 3.72e-01 |
| REACTOME CLASS I PEROXISOMAL MEMBRANE PROTEIN IMPORT | 19 | 7.05e-02 | -2.40e-01 | 3.72e-01 |
| REACTOME PRE NOTCH PROCESSING IN THE ENDOPLASMIC RETICULUM | 6 | 7.11e-02 | 4.25e-01 | 3.74e-01 |
| REACTOME SYNTHESIS OF 16 20 HYDROXYEICOSATETRAENOIC ACIDS HETE | 9 | 7.14e-02 | -3.47e-01 | 3.75e-01 |
| REACTOME HISTIDINE CATABOLISM | 8 | 7.40e-02 | 3.65e-01 | 3.87e-01 |
| REACTOME DNA DAMAGE REVERSAL | 8 | 7.43e-02 | 3.64e-01 | 3.87e-01 |
| REACTOME DEFECTS OF CONTACT ACTIVATION SYSTEM CAS AND KALLIKREIN KININ SYSTEM KKS | 14 | 7.47e-02 | 2.75e-01 | 3.88e-01 |
| REACTOME O LINKED GLYCOSYLATION | 109 | 7.52e-02 | 9.86e-02 | 3.89e-01 |
| REACTOME TOLL LIKE RECEPTOR 9 TLR9 CASCADE | 100 | 7.54e-02 | -1.03e-01 | 3.89e-01 |
| REACTOME VEGFR2 MEDIATED CELL PROLIFERATION | 19 | 7.57e-02 | 2.35e-01 | 3.90e-01 |
| REACTOME SUMOYLATION OF DNA METHYLATION PROTEINS | 16 | 7.72e-02 | 2.55e-01 | 3.94e-01 |
| REACTOME TRANSMISSION ACROSS CHEMICAL SYNAPSES | 255 | 7.73e-02 | 6.43e-02 | 3.94e-01 |
| REACTOME INTERLEUKIN 2 SIGNALING | 11 | 7.73e-02 | -3.08e-01 | 3.94e-01 |
| REACTOME REGULATED NECROSIS | 57 | 7.76e-02 | -1.35e-01 | 3.95e-01 |
| REACTOME CDC42 GTPASE CYCLE | 144 | 7.84e-02 | 8.50e-02 | 3.97e-01 |
| REACTOME GLOBAL GENOME NUCLEOTIDE EXCISION REPAIR GG NER | 81 | 7.98e-02 | -1.13e-01 | 4.03e-01 |
| REACTOME RHOQ GTPASE CYCLE | 57 | 8.05e-02 | 1.34e-01 | 4.05e-01 |
| REACTOME G ALPHA Q SIGNALLING EVENTS | 206 | 8.12e-02 | 7.05e-02 | 4.08e-01 |
| REACTOME TICAM1 TRAF6 DEPENDENT INDUCTION OF TAK1 COMPLEX | 10 | 8.15e-02 | -3.18e-01 | 4.08e-01 |
| REACTOME REGULATION OF GENE EXPRESSION IN LATE STAGE BRANCHING MORPHOGENESIS PANCREATIC BUD PRECURSOR CELLS | 15 | 8.21e-02 | -2.59e-01 | 4.10e-01 |
| REACTOME HIV LIFE CYCLE | 145 | 8.29e-02 | -8.34e-02 | 4.11e-01 |
| REACTOME NR1H2 AND NR1H3 MEDIATED SIGNALING | 46 | 8.31e-02 | 1.48e-01 | 4.11e-01 |
| REACTOME OREXIN AND NEUROPEPTIDES FF AND QRFP BIND TO THEIR RESPECTIVE RECEPTORS | 8 | 8.32e-02 | 3.54e-01 | 4.11e-01 |
| REACTOME CONSTITUTIVE SIGNALING BY AKT1 E17K IN CANCER | 25 | 8.33e-02 | 2.00e-01 | 4.11e-01 |
| REACTOME APC CDC20 MEDIATED DEGRADATION OF NEK2A | 26 | 8.47e-02 | -1.95e-01 | 4.16e-01 |
| REACTOME CELLULAR RESPONSE TO HEAT STRESS | 99 | 8.50e-02 | -1.00e-01 | 4.17e-01 |
| REACTOME INTERLEUKIN 3 INTERLEUKIN 5 AND GM CSF SIGNALING | 45 | 8.53e-02 | -1.48e-01 | 4.17e-01 |
| REACTOME DOWNSTREAM SIGNALING EVENTS OF B CELL RECEPTOR BCR | 79 | 8.57e-02 | -1.12e-01 | 4.17e-01 |
| REACTOME HIV TRANSCRIPTION INITIATION | 43 | 8.69e-02 | -1.51e-01 | 4.22e-01 |
| REACTOME DOWNREGULATION OF TGF BETA RECEPTOR SIGNALING | 26 | 8.86e-02 | -1.93e-01 | 4.28e-01 |
| REACTOME INTERFERON SIGNALING | 193 | 8.91e-02 | -7.10e-02 | 4.28e-01 |
| REACTOME DDX58 IFIH1 MEDIATED INDUCTION OF INTERFERON ALPHA BETA | 77 | 8.93e-02 | -1.12e-01 | 4.28e-01 |
| REACTOME TGF BETA RECEPTOR SIGNALING ACTIVATES SMADS | 46 | 8.94e-02 | -1.45e-01 | 4.28e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY TP53 | 351 | 8.95e-02 | -5.28e-02 | 4.28e-01 |
| REACTOME BICARBONATE TRANSPORTERS | 10 | 9.04e-02 | 3.09e-01 | 4.31e-01 |
| REACTOME SIGNALING BY ERBB4 | 57 | 9.06e-02 | -1.30e-01 | 4.31e-01 |
| REACTOME FGFR1C LIGAND BINDING AND ACTIVATION | 11 | 9.13e-02 | 2.94e-01 | 4.33e-01 |
| REACTOME INTRINSIC PATHWAY OF FIBRIN CLOT FORMATION | 21 | 9.26e-02 | 2.12e-01 | 4.38e-01 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN DIFFERENTIATION OF MYELOID CELLS | 7 | 9.32e-02 | 3.66e-01 | 4.39e-01 |
| REACTOME PKA MEDIATED PHOSPHORYLATION OF CREB | 19 | 9.32e-02 | 2.22e-01 | 4.39e-01 |
| REACTOME KEAP1 NFE2L2 PATHWAY | 104 | 9.59e-02 | -9.45e-02 | 4.49e-01 |
| REACTOME CD22 MEDIATED BCR REGULATION | 5 | 9.59e-02 | -4.30e-01 | 4.49e-01 |
| REACTOME NR1H3 NR1H2 REGULATE GENE EXPRESSION LINKED TO CHOLESTEROL TRANSPORT AND EFFLUX | 36 | 9.78e-02 | 1.59e-01 | 4.53e-01 |
| REACTOME COBALAMIN CBL VITAMIN B12 TRANSPORT AND METABOLISM | 21 | 9.78e-02 | 2.09e-01 | 4.53e-01 |
| REACTOME CROSS PRESENTATION OF SOLUBLE EXOGENOUS ANTIGENS ENDOSOMES | 46 | 9.80e-02 | -1.41e-01 | 4.53e-01 |
| REACTOME HDMS DEMETHYLATE HISTONES | 40 | 9.80e-02 | -1.51e-01 | 4.53e-01 |
| REACTOME THE NLRP3 INFLAMMASOME | 16 | 9.94e-02 | -2.38e-01 | 4.58e-01 |
| REACTOME UNFOLDED PROTEIN RESPONSE UPR | 88 | 1.00e-01 | -1.01e-01 | 4.60e-01 |
| REACTOME PHASE 3 RAPID REPOLARISATION | 8 | 1.01e-01 | 3.35e-01 | 4.64e-01 |
| REACTOME INTERLEUKIN 4 AND INTERLEUKIN 13 SIGNALING | 103 | 1.03e-01 | -9.30e-02 | 4.69e-01 |
| REACTOME SIGNALING BY FLT3 ITD AND TKD MUTANTS | 16 | 1.03e-01 | -2.36e-01 | 4.69e-01 |
| REACTOME TRNA PROCESSING | 105 | 1.03e-01 | -9.21e-02 | 4.69e-01 |
| REACTOME TRANSPORT OF FATTY ACIDS | 8 | 1.03e-01 | 3.33e-01 | 4.69e-01 |
| REACTOME SYNTHESIS OF GLYCOSYLPHOSPHATIDYLINOSITOL GPI | 17 | 1.04e-01 | -2.28e-01 | 4.69e-01 |
| REACTOME BUTYROPHILIN BTN FAMILY INTERACTIONS | 12 | 1.04e-01 | -2.71e-01 | 4.69e-01 |
| REACTOME REGULATION OF GLYCOLYSIS BY FRUCTOSE 2 6 BISPHOSPHATE METABOLISM | 11 | 1.04e-01 | 2.83e-01 | 4.69e-01 |
| REACTOME EARLY PHASE OF HIV LIFE CYCLE | 14 | 1.05e-01 | -2.50e-01 | 4.72e-01 |
| REACTOME CLASS C 3 METABOTROPIC GLUTAMATE PHEROMONE RECEPTORS | 39 | 1.06e-01 | 1.50e-01 | 4.72e-01 |
| REACTOME CELLULAR RESPONSE TO CHEMICAL STRESS | 188 | 1.06e-01 | -6.83e-02 | 4.72e-01 |
| REACTOME EGFR INTERACTS WITH PHOSPHOLIPASE C GAMMA | 9 | 1.06e-01 | -3.11e-01 | 4.72e-01 |
| REACTOME GDP FUCOSE BIOSYNTHESIS | 6 | 1.08e-01 | 3.78e-01 | 4.81e-01 |
| REACTOME PEPTIDE HORMONE BIOSYNTHESIS | 13 | 1.10e-01 | 2.56e-01 | 4.87e-01 |
| REACTOME PHASE 2 PLATEAU PHASE | 14 | 1.11e-01 | 2.46e-01 | 4.88e-01 |
| REACTOME SIGNALING BY SCF KIT | 42 | 1.11e-01 | -1.42e-01 | 4.88e-01 |
| REACTOME MODULATION BY MTB OF HOST IMMUNE SYSTEM | 6 | 1.11e-01 | -3.75e-01 | 4.89e-01 |
| REACTOME PASSIVE TRANSPORT BY AQUAPORINS | 13 | 1.12e-01 | 2.55e-01 | 4.90e-01 |
| REACTOME TICAM1 RIP1 MEDIATED IKK COMPLEX RECRUITMENT | 18 | 1.14e-01 | -2.15e-01 | 4.96e-01 |
| REACTOME SLC TRANSPORTER DISORDERS | 94 | 1.14e-01 | 9.43e-02 | 4.96e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY RUNX2 | 117 | 1.14e-01 | -8.46e-02 | 4.96e-01 |
| REACTOME ACTIVATED TAK1 MEDIATES P38 MAPK ACTIVATION | 20 | 1.15e-01 | -2.04e-01 | 4.99e-01 |
| REACTOME ANCHORING FIBRIL FORMATION | 13 | 1.17e-01 | 2.51e-01 | 5.08e-01 |
| REACTOME PKA ACTIVATION IN GLUCAGON SIGNALLING | 17 | 1.18e-01 | 2.19e-01 | 5.09e-01 |
| REACTOME SARS COV 2 ACTIVATES MODULATES INNATE AND ADAPTIVE IMMUNE RESPONSES | 118 | 1.20e-01 | -8.30e-02 | 5.13e-01 |
| REACTOME NUCLEOTIDE BINDING DOMAIN LEUCINE RICH REPEAT CONTAINING RECEPTOR NLR SIGNALING PATHWAYS | 53 | 1.20e-01 | -1.24e-01 | 5.13e-01 |
| REACTOME AMINE LIGAND BINDING RECEPTORS | 40 | 1.20e-01 | 1.42e-01 | 5.13e-01 |
| REACTOME TIE2 SIGNALING | 18 | 1.21e-01 | -2.11e-01 | 5.13e-01 |
| REACTOME SIGNALING BY RHO GTPASES MIRO GTPASES AND RHOBTB3 | 679 | 1.21e-01 | -3.49e-02 | 5.13e-01 |
| REACTOME BUTYRATE RESPONSE FACTOR 1 BRF1 BINDS AND DESTABILIZES MRNA | 17 | 1.23e-01 | -2.16e-01 | 5.20e-01 |
| REACTOME PINK1 PRKN MEDIATED MITOPHAGY | 22 | 1.24e-01 | -1.90e-01 | 5.22e-01 |
| REACTOME TRANSLESION SYNTHESIS BY POLK | 17 | 1.24e-01 | -2.16e-01 | 5.22e-01 |
| REACTOME DEFECTIVE F9 ACTIVATION | 5 | 1.24e-01 | 3.97e-01 | 5.22e-01 |
| REACTOME TRANSPORT OF MATURE TRANSCRIPT TO CYTOPLASM | 78 | 1.24e-01 | -1.01e-01 | 5.23e-01 |
| REACTOME TRANSPORT OF ORGANIC ANIONS | 10 | 1.25e-01 | 2.80e-01 | 5.25e-01 |
| REACTOME NRIF SIGNALS CELL DEATH FROM THE NUCLEUS | 16 | 1.27e-01 | -2.20e-01 | 5.31e-01 |
| REACTOME CREB3 FACTORS ACTIVATE GENES | 8 | 1.28e-01 | -3.11e-01 | 5.34e-01 |
| REACTOME REGULATION OF INSULIN SECRETION | 77 | 1.29e-01 | 1.00e-01 | 5.37e-01 |
| REACTOME GENERATION OF SECOND MESSENGER MOLECULES | 30 | 1.30e-01 | -1.60e-01 | 5.38e-01 |
| REACTOME ANTIGEN PROCESSING UBIQUITINATION PROTEASOME DEGRADATION | 296 | 1.30e-01 | -5.12e-02 | 5.38e-01 |
| REACTOME TNFR1 INDUCED PROAPOPTOTIC SIGNALING | 23 | 1.31e-01 | -1.82e-01 | 5.38e-01 |
| REACTOME GABA SYNTHESIS RELEASE REUPTAKE AND DEGRADATION | 19 | 1.31e-01 | -2.00e-01 | 5.38e-01 |
| REACTOME NICOTINATE METABOLISM | 31 | 1.32e-01 | 1.56e-01 | 5.39e-01 |
| REACTOME INTERLEUKIN 23 SIGNALING | 9 | 1.32e-01 | 2.90e-01 | 5.39e-01 |
| REACTOME DEFECTIVE LFNG CAUSES SCDO3 | 5 | 1.32e-01 | 3.89e-01 | 5.39e-01 |
| REACTOME SENSORY PERCEPTION OF TASTE | 47 | 1.32e-01 | 1.27e-01 | 5.39e-01 |
| REACTOME ACYL CHAIN REMODELING OF DAG AND TAG | 5 | 1.34e-01 | 3.87e-01 | 5.44e-01 |
| REACTOME CHK1 CHK2 CDS1 MEDIATED INACTIVATION OF CYCLIN B CDK1 COMPLEX | 13 | 1.34e-01 | -2.40e-01 | 5.44e-01 |
| REACTOME EGFR DOWNREGULATION | 30 | 1.35e-01 | -1.58e-01 | 5.44e-01 |
| REACTOME RNA POLYMERASE III CHAIN ELONGATION | 18 | 1.36e-01 | -2.03e-01 | 5.45e-01 |
| REACTOME COOPERATION OF PDCL PHLP1 AND TRIC CCT IN G PROTEIN BETA FOLDING | 38 | 1.36e-01 | -1.40e-01 | 5.45e-01 |
| REACTOME BINDING OF TCF LEF CTNNB1 TO TARGET GENE PROMOTERS | 8 | 1.36e-01 | -3.05e-01 | 5.45e-01 |
| REACTOME MITOPHAGY | 28 | 1.37e-01 | -1.62e-01 | 5.48e-01 |
| REACTOME SIGNALING BY ALK IN CANCER | 53 | 1.38e-01 | -1.18e-01 | 5.51e-01 |
| REACTOME TRANSPORT OF SMALL MOLECULES | 697 | 1.39e-01 | 3.29e-02 | 5.51e-01 |
| REACTOME REACTIONS SPECIFIC TO THE COMPLEX N GLYCAN SYNTHESIS PATHWAY | 10 | 1.39e-01 | 2.70e-01 | 5.51e-01 |
| REACTOME IRAK1 RECRUITS IKK COMPLEX | 12 | 1.39e-01 | -2.46e-01 | 5.51e-01 |
| REACTOME PHOSPHOLIPASE C MEDIATED CASCADE FGFR4 | 14 | 1.40e-01 | 2.28e-01 | 5.51e-01 |
| REACTOME PTK6 REGULATES CELL CYCLE | 6 | 1.40e-01 | -3.48e-01 | 5.51e-01 |
| REACTOME LDL REMODELING | 6 | 1.40e-01 | -3.48e-01 | 5.51e-01 |
| REACTOME INTERLEUKIN 37 SIGNALING | 20 | 1.41e-01 | 1.90e-01 | 5.54e-01 |
| REACTOME REGULATION OF CYTOSKELETAL REMODELING AND CELL SPREADING BY IPP COMPLEX COMPONENTS | 7 | 1.42e-01 | 3.21e-01 | 5.54e-01 |
| REACTOME KETONE BODY METABOLISM | 9 | 1.42e-01 | 2.82e-01 | 5.54e-01 |
| REACTOME SIGNALING BY TGF BETA RECEPTOR COMPLEX | 91 | 1.42e-01 | -8.90e-02 | 5.54e-01 |
| REACTOME N GLYCAN ANTENNAE ELONGATION | 15 | 1.42e-01 | 2.19e-01 | 5.54e-01 |
| REACTOME RHOU GTPASE CYCLE | 37 | 1.44e-01 | 1.39e-01 | 5.56e-01 |
| REACTOME VEGF LIGAND RECEPTOR INTERACTIONS | 7 | 1.44e-01 | 3.19e-01 | 5.56e-01 |
| REACTOME DEFECTIVE FACTOR IX CAUSES HEMOPHILIA B | 7 | 1.45e-01 | 3.18e-01 | 5.58e-01 |
| REACTOME FGFR2 LIGAND BINDING AND ACTIVATION | 19 | 1.45e-01 | 1.93e-01 | 5.59e-01 |
| REACTOME MYD88 INDEPENDENT TLR4 CASCADE | 103 | 1.46e-01 | -8.29e-02 | 5.61e-01 |
| REACTOME CARGO CONCENTRATION IN THE ER | 32 | 1.47e-01 | -1.48e-01 | 5.61e-01 |
| REACTOME PRE NOTCH PROCESSING IN GOLGI | 18 | 1.47e-01 | 1.97e-01 | 5.61e-01 |
| REACTOME NICOTINAMIDE SALVAGING | 19 | 1.47e-01 | 1.92e-01 | 5.61e-01 |
| REACTOME REGULATION OF NPAS4 GENE TRANSCRIPTION | 5 | 1.47e-01 | -3.74e-01 | 5.61e-01 |
| REACTOME PREDNISONE ADME | 10 | 1.49e-01 | -2.64e-01 | 5.63e-01 |
| REACTOME KERATAN SULFATE BIOSYNTHESIS | 28 | 1.49e-01 | 1.58e-01 | 5.63e-01 |
| REACTOME INTEGRATION OF PROVIRUS | 9 | 1.49e-01 | -2.78e-01 | 5.63e-01 |
| REACTOME ACTIVATION OF NMDA RECEPTORS AND POSTSYNAPTIC EVENTS | 87 | 1.50e-01 | 8.94e-02 | 5.63e-01 |
| REACTOME REGULATION OF BETA CELL DEVELOPMENT | 41 | 1.50e-01 | -1.30e-01 | 5.63e-01 |
| REACTOME SIGNALING BY FGFR1 IN DISEASE | 38 | 1.50e-01 | 1.35e-01 | 5.64e-01 |
| REACTOME CARDIAC CONDUCTION | 125 | 1.51e-01 | 7.44e-02 | 5.64e-01 |
| REACTOME VEGFR2 MEDIATED VASCULAR PERMEABILITY | 26 | 1.51e-01 | 1.63e-01 | 5.64e-01 |
| REACTOME VISUAL PHOTOTRANSDUCTION | 93 | 1.51e-01 | 8.61e-02 | 5.64e-01 |
| REACTOME ACYL CHAIN REMODELLING OF PI | 17 | 1.52e-01 | -2.01e-01 | 5.64e-01 |
| REACTOME ACTIVATION OF IRF3 IRF7 MEDIATED BY TBK1 IKK EPSILON | 17 | 1.53e-01 | -2.00e-01 | 5.67e-01 |
| REACTOME FRS MEDIATED FGFR1 SIGNALING | 23 | 1.54e-01 | 1.72e-01 | 5.71e-01 |
| REACTOME SENSORY PERCEPTION | 555 | 1.54e-01 | -3.54e-02 | 5.71e-01 |
| REACTOME SIGNALING BY EGFR | 49 | 1.55e-01 | -1.17e-01 | 5.72e-01 |
| REACTOME TRNA PROCESSING IN THE NUCLEUS | 58 | 1.55e-01 | -1.08e-01 | 5.72e-01 |
| REACTOME SIGNALING BY ALK | 26 | 1.57e-01 | -1.60e-01 | 5.76e-01 |
| REACTOME TOXICITY OF BOTULINUM TOXIN TYPE D BOTD | 5 | 1.58e-01 | -3.65e-01 | 5.78e-01 |
| REACTOME TRANSPORT AND SYNTHESIS OF PAPS | 6 | 1.59e-01 | 3.32e-01 | 5.81e-01 |
| REACTOME FATTY ACIDS BOUND TO GPR40 FFAR1 REGULATE INSULIN SECRETION | 8 | 1.59e-01 | 2.87e-01 | 5.82e-01 |
| REACTOME MAP3K8 TPL2 DEPENDENT MAPK1 3 ACTIVATION | 15 | 1.60e-01 | -2.09e-01 | 5.82e-01 |
| REACTOME PROTEIN FOLDING | 96 | 1.60e-01 | -8.29e-02 | 5.82e-01 |
| REACTOME METABOLISM OF COFACTORS | 19 | 1.61e-01 | -1.86e-01 | 5.83e-01 |
| REACTOME SIGNALING BY FGFR IN DISEASE | 62 | 1.62e-01 | 1.03e-01 | 5.85e-01 |
| REACTOME REGULATION OF HSF1 MEDIATED HEAT SHOCK RESPONSE | 81 | 1.63e-01 | -8.96e-02 | 5.88e-01 |
| REACTOME FGFR3B LIGAND BINDING AND ACTIVATION | 7 | 1.63e-01 | 3.04e-01 | 5.88e-01 |
| REACTOME PHENYLALANINE AND TYROSINE METABOLISM | 11 | 1.64e-01 | 2.42e-01 | 5.89e-01 |
| REACTOME INTESTINAL ABSORPTION | 5 | 1.65e-01 | 3.59e-01 | 5.89e-01 |
| REACTOME SIGNALING BY NOTCH1 T 7 9 NOTCH1 M1580 K2555 TRANSLOCATION MUTANT | 7 | 1.66e-01 | 3.03e-01 | 5.89e-01 |
| REACTOME PI 3K CASCADE FGFR1 | 21 | 1.66e-01 | 1.74e-01 | 5.89e-01 |
| REACTOME SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 7ALPHA HYDROXYCHOLESTEROL | 24 | 1.66e-01 | 1.63e-01 | 5.89e-01 |
| REACTOME REGULATION OF TP53 ACTIVITY | 156 | 1.66e-01 | -6.42e-02 | 5.89e-01 |
| REACTOME SIGNALING BY CSF3 G CSF | 30 | 1.67e-01 | -1.46e-01 | 5.89e-01 |
| REACTOME ACTIVATION OF ATR IN RESPONSE TO REPLICATION STRESS | 37 | 1.67e-01 | -1.31e-01 | 5.89e-01 |
| REACTOME REGULATION OF RAS BY GAPS | 66 | 1.67e-01 | -9.83e-02 | 5.89e-01 |
| REACTOME INTERACTION WITH CUMULUS CELLS AND THE ZONA PELLUCIDA | 11 | 1.68e-01 | -2.40e-01 | 5.89e-01 |
| REACTOME RNA POLYMERASE III TRANSCRIPTION | 41 | 1.68e-01 | -1.25e-01 | 5.89e-01 |
| REACTOME MITOTIC G2 G2 M PHASES | 194 | 1.70e-01 | -5.72e-02 | 5.94e-01 |
| REACTOME RECYCLING PATHWAY OF L1 | 43 | 1.70e-01 | 1.21e-01 | 5.94e-01 |
| REACTOME PD 1 SIGNALING | 21 | 1.70e-01 | -1.73e-01 | 5.95e-01 |
| REACTOME VASOPRESSIN REGULATES RENAL WATER HOMEOSTASIS VIA AQUAPORINS | 42 | 1.71e-01 | 1.22e-01 | 5.95e-01 |
| REACTOME FRS MEDIATED FGFR2 SIGNALING | 24 | 1.72e-01 | 1.61e-01 | 5.95e-01 |
| REACTOME SCAVENGING BY CLASS F RECEPTORS | 6 | 1.73e-01 | -3.21e-01 | 5.95e-01 |
| REACTOME METHYLATION | 14 | 1.73e-01 | -2.10e-01 | 5.95e-01 |
| REACTOME ROLE OF SECOND MESSENGERS IN NETRIN 1 SIGNALING | 9 | 1.73e-01 | -2.62e-01 | 5.95e-01 |
| REACTOME ACROSOME REACTION AND SPERM OOCYTE MEMBRANE BINDING | 6 | 1.73e-01 | -3.21e-01 | 5.95e-01 |
| REACTOME PHASE 4 RESTING MEMBRANE POTENTIAL | 19 | 1.73e-01 | 1.80e-01 | 5.95e-01 |
| REACTOME FRS MEDIATED FGFR3 SIGNALING | 19 | 1.73e-01 | 1.80e-01 | 5.95e-01 |
| REACTOME CONSTITUTIVE SIGNALING BY EGFRVIII | 15 | 1.74e-01 | -2.03e-01 | 5.96e-01 |
| REACTOME ATF4 ACTIVATES GENES IN RESPONSE TO ENDOPLASMIC RETICULUM STRESS | 27 | 1.74e-01 | -1.51e-01 | 5.96e-01 |
| REACTOME RETINOID CYCLE DISEASE EVENTS | 11 | 1.76e-01 | 2.36e-01 | 5.99e-01 |
| REACTOME FGFR2C LIGAND BINDING AND ACTIVATION | 12 | 1.76e-01 | 2.25e-01 | 6.00e-01 |
| REACTOME FOLDING OF ACTIN BY CCT TRIC | 10 | 1.76e-01 | -2.47e-01 | 6.00e-01 |
| REACTOME FORMATION OF FIBRIN CLOT CLOTTING CASCADE | 37 | 1.78e-01 | 1.28e-01 | 6.02e-01 |
| REACTOME MULTIFUNCTIONAL ANION EXCHANGERS | 9 | 1.78e-01 | 2.59e-01 | 6.02e-01 |
| REACTOME NR1H2 NR1H3 REGULATE GENE EXPRESSION LINKED TO LIPOGENESIS | 9 | 1.80e-01 | 2.58e-01 | 6.08e-01 |
| REACTOME ASSOCIATION OF TRIC CCT WITH TARGET PROTEINS DURING BIOSYNTHESIS | 38 | 1.81e-01 | -1.26e-01 | 6.08e-01 |
| REACTOME CALCITONIN LIKE LIGAND RECEPTORS | 10 | 1.81e-01 | -2.44e-01 | 6.08e-01 |
| REACTOME SHC MEDIATED CASCADE FGFR1 | 21 | 1.81e-01 | 1.69e-01 | 6.08e-01 |
| REACTOME GLYOXYLATE METABOLISM AND GLYCINE DEGRADATION | 30 | 1.84e-01 | 1.40e-01 | 6.17e-01 |
| REACTOME PI 3K CASCADE FGFR2 | 22 | 1.86e-01 | 1.63e-01 | 6.23e-01 |
| REACTOME PI 3K CASCADE FGFR3 | 17 | 1.87e-01 | 1.85e-01 | 6.23e-01 |
| REACTOME SMAD2 SMAD3 SMAD4 HETEROTRIMER REGULATES TRANSCRIPTION | 36 | 1.87e-01 | -1.27e-01 | 6.23e-01 |
| REACTOME G ALPHA 12 13 SIGNALLING EVENTS | 74 | 1.88e-01 | 8.86e-02 | 6.23e-01 |
| REACTOME SEMA3A PLEXIN REPULSION SIGNALING BY INHIBITING INTEGRIN ADHESION | 13 | 1.88e-01 | 2.11e-01 | 6.25e-01 |
| REACTOME REGULATED PROTEOLYSIS OF P75NTR | 11 | 1.89e-01 | -2.29e-01 | 6.26e-01 |
| REACTOME O LINKED GLYCOSYLATION OF MUCINS | 61 | 1.90e-01 | 9.71e-02 | 6.26e-01 |
| REACTOME SYNTHESIS OF PIPS AT THE ER MEMBRANE | 5 | 1.90e-01 | 3.38e-01 | 6.27e-01 |
| REACTOME MTORC1 MEDIATED SIGNALLING | 23 | 1.91e-01 | -1.58e-01 | 6.28e-01 |
| REACTOME P75NTR RECRUITS SIGNALLING COMPLEXES | 12 | 1.92e-01 | -2.17e-01 | 6.31e-01 |
| REACTOME ALK MUTANTS BIND TKIS | 12 | 1.93e-01 | -2.17e-01 | 6.31e-01 |
| REACTOME SARS COV 1 ACTIVATES MODULATES INNATE IMMUNE RESPONSES | 39 | 1.93e-01 | -1.20e-01 | 6.31e-01 |
| REACTOME NCAM SIGNALING FOR NEURITE OUT GROWTH | 62 | 1.94e-01 | 9.55e-02 | 6.32e-01 |
| REACTOME CARGO RECOGNITION FOR CLATHRIN MEDIATED ENDOCYTOSIS | 100 | 1.94e-01 | -7.51e-02 | 6.33e-01 |
| REACTOME EGR2 AND SOX10 MEDIATED INITIATION OF SCHWANN CELL MYELINATION | 27 | 1.95e-01 | 1.44e-01 | 6.33e-01 |
| REACTOME INCRETIN SYNTHESIS SECRETION AND INACTIVATION | 23 | 1.95e-01 | -1.56e-01 | 6.33e-01 |
| REACTOME C TYPE LECTIN RECEPTORS CLRS | 136 | 1.95e-01 | -6.43e-02 | 6.33e-01 |
| REACTOME ARACHIDONIC ACID METABOLISM | 57 | 1.96e-01 | -9.90e-02 | 6.34e-01 |
| REACTOME CASPASE ACTIVATION VIA DEATH RECEPTORS IN THE PRESENCE OF LIGAND | 16 | 1.97e-01 | -1.86e-01 | 6.36e-01 |
| REACTOME INTERLEUKIN 20 FAMILY SIGNALING | 25 | 1.98e-01 | 1.49e-01 | 6.37e-01 |
| REACTOME COENZYME A BIOSYNTHESIS | 8 | 1.98e-01 | -2.63e-01 | 6.37e-01 |
| REACTOME DISEASES ASSOCIATED WITH O GLYCOSYLATION OF PROTEINS | 66 | 1.99e-01 | 9.15e-02 | 6.37e-01 |
| REACTOME METABOLISM OF POLYAMINES | 56 | 1.99e-01 | -9.92e-02 | 6.37e-01 |
| REACTOME DISEASES OF SIGNAL TRANSDUCTION BY GROWTH FACTOR RECEPTORS AND SECOND MESSENGERS | 418 | 2.02e-01 | -3.64e-02 | 6.38e-01 |
| REACTOME REGULATION OF GENE EXPRESSION IN ENDOCRINE COMMITTED NEUROG3 PROGENITOR CELLS | 5 | 2.02e-01 | -3.30e-01 | 6.38e-01 |
| REACTOME CHAPERONE MEDIATED AUTOPHAGY | 20 | 2.02e-01 | -1.65e-01 | 6.38e-01 |
| REACTOME RNA POLYMERASE III TRANSCRIPTION INITIATION FROM TYPE 1 PROMOTER | 28 | 2.02e-01 | -1.39e-01 | 6.38e-01 |
| REACTOME METALLOTHIONEINS BIND METALS | 11 | 2.02e-01 | 2.22e-01 | 6.38e-01 |
| REACTOME ANTIGEN ACTIVATES B CELL RECEPTOR BCR LEADING TO GENERATION OF SECOND MESSENGERS | 28 | 2.03e-01 | -1.39e-01 | 6.38e-01 |
| REACTOME MITOTIC PROMETAPHASE | 194 | 2.03e-01 | -5.29e-02 | 6.38e-01 |
| REACTOME RSK ACTIVATION | 5 | 2.04e-01 | 3.28e-01 | 6.38e-01 |
| REACTOME DUAL INCISION IN GG NER | 39 | 2.04e-01 | -1.18e-01 | 6.38e-01 |
| REACTOME NA CL DEPENDENT NEUROTRANSMITTER TRANSPORTERS | 18 | 2.04e-01 | 1.73e-01 | 6.38e-01 |
| REACTOME MATURATION OF PROTEIN 3A | 9 | 2.04e-01 | 2.44e-01 | 6.38e-01 |
| REACTOME SHC MEDIATED CASCADE FGFR3 | 17 | 2.05e-01 | 1.78e-01 | 6.38e-01 |
| REACTOME ACTIVATION OF MATRIX METALLOPROTEINASES | 30 | 2.05e-01 | 1.34e-01 | 6.38e-01 |
| REACTOME INWARDLY RECTIFYING K CHANNELS | 35 | 2.05e-01 | 1.24e-01 | 6.38e-01 |
| REACTOME HEME SIGNALING | 47 | 2.05e-01 | 1.07e-01 | 6.38e-01 |
| REACTOME DRUG MEDIATED INHIBITION OF CDK4 CDK6 ACTIVITY | 5 | 2.06e-01 | -3.27e-01 | 6.38e-01 |
| REACTOME GASTRULATION | 49 | 2.07e-01 | -1.04e-01 | 6.40e-01 |
| REACTOME G0 AND EARLY G1 | 27 | 2.08e-01 | -1.40e-01 | 6.41e-01 |
| REACTOME INITIATION OF NUCLEAR ENVELOPE NE REFORMATION | 18 | 2.08e-01 | -1.71e-01 | 6.41e-01 |
| REACTOME TRANSCRIPTION OF E2F TARGETS UNDER NEGATIVE CONTROL BY DREAM COMPLEX | 19 | 2.08e-01 | -1.67e-01 | 6.41e-01 |
| REACTOME GLUCOCORTICOID BIOSYNTHESIS | 10 | 2.08e-01 | -2.30e-01 | 6.41e-01 |
| REACTOME APC C CDC20 MEDIATED DEGRADATION OF CYCLIN B | 24 | 2.09e-01 | -1.48e-01 | 6.41e-01 |
| REACTOME REGULATION OF PTEN LOCALIZATION | 8 | 2.10e-01 | -2.56e-01 | 6.41e-01 |
| REACTOME SYNTHESIS OF KETONE BODIES | 8 | 2.10e-01 | 2.56e-01 | 6.41e-01 |
| REACTOME ACTIVATION OF GENE EXPRESSION BY SREBF SREBP | 41 | 2.10e-01 | 1.13e-01 | 6.41e-01 |
| REACTOME SIGNALING BY VEGF | 102 | 2.11e-01 | 7.18e-02 | 6.41e-01 |
| REACTOME JOSEPHIN DOMAIN DUBS | 11 | 2.11e-01 | -2.18e-01 | 6.41e-01 |
| REACTOME CLEC7A DECTIN 1 SIGNALING | 97 | 2.12e-01 | -7.33e-02 | 6.44e-01 |
| REACTOME INFLAMMASOMES | 21 | 2.13e-01 | -1.57e-01 | 6.44e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF DEATH RECEPTORS AND LIGANDS | 12 | 2.13e-01 | 2.08e-01 | 6.44e-01 |
| REACTOME PCP CE PATHWAY | 91 | 2.14e-01 | -7.54e-02 | 6.45e-01 |
| REACTOME MIRO GTPASE CYCLE | 8 | 2.14e-01 | -2.53e-01 | 6.46e-01 |
| REACTOME HSF1 ACTIVATION | 29 | 2.16e-01 | -1.33e-01 | 6.50e-01 |
| REACTOME REGULATION OF NF KAPPA B SIGNALING | 17 | 2.17e-01 | -1.73e-01 | 6.53e-01 |
| REACTOME LAMININ INTERACTIONS | 28 | 2.19e-01 | 1.34e-01 | 6.54e-01 |
| REACTOME ACETYLCHOLINE BINDING AND DOWNSTREAM EVENTS | 14 | 2.19e-01 | -1.90e-01 | 6.54e-01 |
| REACTOME SURFACTANT METABOLISM | 28 | 2.19e-01 | 1.34e-01 | 6.54e-01 |
| REACTOME RECOGNITION OF DNA DAMAGE BY PCNA CONTAINING REPLICATION COMPLEX | 29 | 2.20e-01 | -1.31e-01 | 6.56e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF ADDITIONAL CELL CYCLE GENES WHOSE EXACT ROLE IN THE P53 PATHWAY REMAIN UNCERTAIN | 21 | 2.21e-01 | -1.54e-01 | 6.56e-01 |
| REACTOME NOTCH4 ACTIVATION AND TRANSMISSION OF SIGNAL TO THE NUCLEUS | 11 | 2.21e-01 | -2.13e-01 | 6.57e-01 |
| REACTOME METABOLISM OF PORPHYRINS | 26 | 2.22e-01 | -1.38e-01 | 6.58e-01 |
| REACTOME PENTOSE PHOSPHATE PATHWAY | 12 | 2.23e-01 | 2.03e-01 | 6.59e-01 |
| REACTOME FORMYL PEPTIDE RECEPTORS BIND FORMYL PEPTIDES AND MANY OTHER LIGANDS | 8 | 2.25e-01 | 2.48e-01 | 6.62e-01 |
| REACTOME HDL ASSEMBLY | 8 | 2.25e-01 | 2.48e-01 | 6.62e-01 |
| REACTOME VITAMIN C ASCORBATE METABOLISM | 8 | 2.26e-01 | -2.47e-01 | 6.62e-01 |
| REACTOME SYNTHESIS OF PIPS AT THE EARLY ENDOSOME MEMBRANE | 15 | 2.27e-01 | 1.80e-01 | 6.62e-01 |
| REACTOME GLYCOGEN BREAKDOWN GLYCOGENOLYSIS | 11 | 2.27e-01 | 2.10e-01 | 6.62e-01 |
| REACTOME PROCESSING OF CAPPED INTRONLESS PRE MRNA | 28 | 2.28e-01 | -1.32e-01 | 6.62e-01 |
| REACTOME FCGR3A MEDIATED IL10 SYNTHESIS | 36 | 2.28e-01 | 1.16e-01 | 6.62e-01 |
| REACTOME ATTENUATION PHASE | 27 | 2.28e-01 | -1.34e-01 | 6.62e-01 |
| REACTOME FGFR1 MUTANT RECEPTOR ACTIVATION | 31 | 2.28e-01 | 1.25e-01 | 6.62e-01 |
| REACTOME SIGNALING BY NTRKS | 132 | 2.28e-01 | -6.07e-02 | 6.62e-01 |
| REACTOME G ALPHA S SIGNALLING EVENTS | 155 | 2.29e-01 | 5.60e-02 | 6.62e-01 |
| REACTOME KSRP KHSRP BINDS AND DESTABILIZES MRNA | 17 | 2.29e-01 | -1.69e-01 | 6.62e-01 |
| REACTOME METAL SEQUESTRATION BY ANTIMICROBIAL PROTEINS | 6 | 2.29e-01 | 2.84e-01 | 6.62e-01 |
| REACTOME PYRUVATE METABOLISM | 29 | 2.30e-01 | 1.29e-01 | 6.64e-01 |
| REACTOME HEME BIOSYNTHESIS | 13 | 2.32e-01 | -1.92e-01 | 6.64e-01 |
| REACTOME SIGNALING BY TGFB FAMILY MEMBERS | 119 | 2.32e-01 | -6.35e-02 | 6.64e-01 |
| REACTOME FORMATION OF PARAXIAL MESODERM | 22 | 2.32e-01 | -1.47e-01 | 6.64e-01 |
| REACTOME RHOC GTPASE CYCLE | 71 | 2.32e-01 | 8.21e-02 | 6.64e-01 |
| REACTOME FRUCTOSE METABOLISM | 7 | 2.33e-01 | 2.60e-01 | 6.64e-01 |
| REACTOME DRUG ADME | 103 | 2.33e-01 | -6.80e-02 | 6.64e-01 |
| REACTOME TRAF6 MEDIATED IRF7 ACTIVATION | 27 | 2.33e-01 | -1.33e-01 | 6.64e-01 |
| REACTOME PLATELET CALCIUM HOMEOSTASIS | 27 | 2.33e-01 | 1.32e-01 | 6.64e-01 |
| REACTOME COLLAGEN CHAIN TRIMERIZATION | 42 | 2.36e-01 | 1.06e-01 | 6.69e-01 |
| REACTOME TRANSLESION SYNTHESIS BY POLH | 19 | 2.37e-01 | -1.57e-01 | 6.71e-01 |
| REACTOME BINDING AND UPTAKE OF LIGANDS BY SCAVENGER RECEPTORS | 42 | 2.37e-01 | -1.05e-01 | 6.71e-01 |
| REACTOME GRB7 EVENTS IN ERBB2 SIGNALING | 5 | 2.38e-01 | 3.04e-01 | 6.74e-01 |
| REACTOME PKMTS METHYLATE HISTONE LYSINES | 64 | 2.40e-01 | -8.50e-02 | 6.76e-01 |
| REACTOME RETROGRADE TRANSPORT AT THE TRANS GOLGI NETWORK | 47 | 2.40e-01 | -9.91e-02 | 6.76e-01 |
| REACTOME FCERI MEDIATED CA 2 MOBILIZATION | 30 | 2.40e-01 | -1.24e-01 | 6.76e-01 |
| REACTOME FORMATION OF INCISION COMPLEX IN GG NER | 40 | 2.41e-01 | -1.07e-01 | 6.77e-01 |
| REACTOME REGULATION OF TP53 ACTIVITY THROUGH ACETYLATION | 29 | 2.42e-01 | 1.25e-01 | 6.79e-01 |
| REACTOME P75 NTR RECEPTOR MEDIATED SIGNALLING | 89 | 2.43e-01 | 7.16e-02 | 6.80e-01 |
| REACTOME MAP2K AND MAPK ACTIVATION | 38 | 2.44e-01 | -1.09e-01 | 6.82e-01 |
| REACTOME SUPPRESSION OF PHAGOSOMAL MATURATION | 13 | 2.46e-01 | -1.86e-01 | 6.84e-01 |
| REACTOME DISEASES OF BASE EXCISION REPAIR | 5 | 2.46e-01 | 3.00e-01 | 6.84e-01 |
| REACTOME PCNA DEPENDENT LONG PATCH BASE EXCISION REPAIR | 21 | 2.47e-01 | -1.46e-01 | 6.85e-01 |
| REACTOME REGULATION BY C FLIP | 11 | 2.50e-01 | -2.00e-01 | 6.91e-01 |
| REACTOME DEFECTIVE FACTOR VIII CAUSES HEMOPHILIA A | 5 | 2.50e-01 | 2.97e-01 | 6.91e-01 |
| REACTOME RECYCLING OF BILE ACIDS AND SALTS | 18 | 2.50e-01 | 1.57e-01 | 6.91e-01 |
| REACTOME REGULATION OF IFNG SIGNALING | 14 | 2.51e-01 | -1.77e-01 | 6.91e-01 |
| REACTOME THE CANONICAL RETINOID CYCLE IN RODS TWILIGHT VISION | 23 | 2.51e-01 | 1.38e-01 | 6.91e-01 |
| REACTOME ASSEMBLY OF THE HIV VIRION | 16 | 2.52e-01 | -1.65e-01 | 6.91e-01 |
| REACTOME CRISTAE FORMATION | 27 | 2.52e-01 | -1.27e-01 | 6.91e-01 |
| REACTOME RESOLUTION OF SISTER CHROMATID COHESION | 120 | 2.53e-01 | -6.05e-02 | 6.91e-01 |
| REACTOME KERATAN SULFATE KERATIN METABOLISM | 34 | 2.53e-01 | 1.13e-01 | 6.91e-01 |
| REACTOME DISEASES OF GLYCOSYLATION | 137 | 2.53e-01 | 5.66e-02 | 6.91e-01 |
| REACTOME MITOTIC SPINDLE CHECKPOINT | 109 | 2.54e-01 | -6.32e-02 | 6.94e-01 |
| REACTOME OPIOID SIGNALLING | 89 | 2.56e-01 | 6.97e-02 | 6.95e-01 |
| REACTOME MET ACTIVATES PTPN11 | 5 | 2.56e-01 | -2.94e-01 | 6.95e-01 |
| REACTOME TFAP2 AP 2 FAMILY REGULATES TRANSCRIPTION OF GROWTH FACTORS AND THEIR RECEPTORS | 14 | 2.56e-01 | 1.75e-01 | 6.96e-01 |
| REACTOME IKK COMPLEX RECRUITMENT MEDIATED BY RIP1 | 22 | 2.58e-01 | -1.39e-01 | 6.97e-01 |
| REACTOME GLUCAGON LIKE PEPTIDE 1 GLP1 REGULATES INSULIN SECRETION | 42 | 2.59e-01 | 1.01e-01 | 6.97e-01 |
| REACTOME FCERI MEDIATED NF KB ACTIVATION | 78 | 2.59e-01 | -7.39e-02 | 6.97e-01 |
| REACTOME TERMINATION OF O GLYCAN BIOSYNTHESIS | 23 | 2.60e-01 | 1.36e-01 | 6.97e-01 |
| REACTOME EXPORT OF VIRAL RIBONUCLEOPROTEINS FROM NUCLEUS | 33 | 2.61e-01 | -1.13e-01 | 6.97e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION OF TESTIS DIFFERENTIATION | 12 | 2.61e-01 | 1.88e-01 | 6.97e-01 |
| REACTOME RHOA GTPASE CYCLE | 142 | 2.61e-01 | 5.46e-02 | 6.97e-01 |
| REACTOME RHO GTPASES ACTIVATE WASPS AND WAVES | 34 | 2.61e-01 | -1.11e-01 | 6.97e-01 |
| REACTOME SUMOYLATION OF INTRACELLULAR RECEPTORS | 29 | 2.61e-01 | 1.21e-01 | 6.97e-01 |
| REACTOME TRANSCRIPTIONAL ACTIVITY OF SMAD2 SMAD3 SMAD4 HETEROTRIMER | 49 | 2.61e-01 | -9.27e-02 | 6.97e-01 |
| REACTOME GABA B RECEPTOR ACTIVATION | 43 | 2.61e-01 | 9.90e-02 | 6.97e-01 |
| REACTOME RA BIOSYNTHESIS PATHWAY | 22 | 2.62e-01 | -1.38e-01 | 6.97e-01 |
| REACTOME HYALURONAN BIOSYNTHESIS AND EXPORT | 5 | 2.63e-01 | 2.89e-01 | 6.99e-01 |
| REACTOME VITAMIN B1 THIAMIN METABOLISM | 5 | 2.64e-01 | -2.89e-01 | 6.99e-01 |
| REACTOME NOTCH3 ACTIVATION AND TRANSMISSION OF SIGNAL TO THE NUCLEUS | 25 | 2.64e-01 | -1.29e-01 | 6.99e-01 |
| REACTOME REDUCTION OF CYTOSOLIC CA LEVELS | 11 | 2.64e-01 | 1.94e-01 | 6.99e-01 |
| REACTOME METABOLISM OF LIPIDS | 709 | 2.65e-01 | 2.46e-02 | 6.99e-01 |
| REACTOME REGULATION OF MECP2 EXPRESSION AND ACTIVITY | 30 | 2.65e-01 | 1.18e-01 | 6.99e-01 |
| REACTOME RETROGRADE NEUROTROPHIN SIGNALLING | 14 | 2.67e-01 | 1.71e-01 | 7.03e-01 |
| REACTOME OVARIAN TUMOR DOMAIN PROTEASES | 36 | 2.68e-01 | -1.07e-01 | 7.05e-01 |
| REACTOME PRESYNAPTIC DEPOLARIZATION AND CALCIUM CHANNEL OPENING | 11 | 2.69e-01 | 1.93e-01 | 7.05e-01 |
| REACTOME GPVI MEDIATED ACTIVATION CASCADE | 35 | 2.70e-01 | -1.08e-01 | 7.07e-01 |
| REACTOME MYOCLONIC EPILEPSY OF LAFORA | 9 | 2.70e-01 | -2.12e-01 | 7.07e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF DNA REPAIR GENES | 61 | 2.72e-01 | -8.12e-02 | 7.11e-01 |
| REACTOME UBIQUINOL BIOSYNTHESIS | 8 | 2.73e-01 | -2.24e-01 | 7.11e-01 |
| REACTOME CD28 DEPENDENT VAV1 PATHWAY | 11 | 2.73e-01 | -1.91e-01 | 7.11e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF CASPASE ACTIVATORS AND CASPASES | 12 | 2.74e-01 | 1.83e-01 | 7.11e-01 |
| REACTOME MRNA EDITING C TO U CONVERSION | 8 | 2.75e-01 | -2.23e-01 | 7.12e-01 |
| REACTOME ESTABLISHMENT OF SISTER CHROMATID COHESION | 9 | 2.75e-01 | -2.10e-01 | 7.12e-01 |
| REACTOME ANDROGEN BIOSYNTHESIS | 11 | 2.76e-01 | 1.90e-01 | 7.12e-01 |
| REACTOME SIGNALING BY INSULIN RECEPTOR | 80 | 2.77e-01 | 7.03e-02 | 7.12e-01 |
| REACTOME RNA POLYMERASE III TRANSCRIPTION TERMINATION | 23 | 2.78e-01 | -1.31e-01 | 7.12e-01 |
| REACTOME ANTI INFLAMMATORY RESPONSE FAVOURING LEISHMANIA PARASITE INFECTION | 74 | 2.78e-01 | 7.29e-02 | 7.12e-01 |
| REACTOME SYNTHESIS OF PG | 8 | 2.78e-01 | 2.21e-01 | 7.12e-01 |
| REACTOME BUDDING AND MATURATION OF HIV VIRION | 28 | 2.79e-01 | -1.18e-01 | 7.12e-01 |
| REACTOME P75NTR REGULATES AXONOGENESIS | 9 | 2.79e-01 | 2.08e-01 | 7.12e-01 |
| REACTOME RESPONSE TO METAL IONS | 14 | 2.79e-01 | 1.67e-01 | 7.12e-01 |
| REACTOME PHOSPHATE BOND HYDROLYSIS BY NUDT PROTEINS | 7 | 2.79e-01 | -2.36e-01 | 7.12e-01 |
| REACTOME DOWNSTREAM SIGNALING OF ACTIVATED FGFR2 | 29 | 2.79e-01 | 1.16e-01 | 7.12e-01 |
| REACTOME INTERLEUKIN 18 SIGNALING | 8 | 2.80e-01 | 2.20e-01 | 7.13e-01 |
| REACTOME SIGNALING BY CSF1 M CSF IN MYELOID CELLS | 30 | 2.81e-01 | -1.14e-01 | 7.13e-01 |
| REACTOME FORMATION OF APOPTOSOME | 10 | 2.81e-01 | -1.97e-01 | 7.13e-01 |
| REACTOME BLOOD GROUP SYSTEMS BIOSYNTHESIS | 21 | 2.82e-01 | 1.36e-01 | 7.14e-01 |
| REACTOME RND3 GTPASE CYCLE | 41 | 2.83e-01 | 9.70e-02 | 7.14e-01 |
| REACTOME PEROXISOMAL PROTEIN IMPORT | 62 | 2.83e-01 | -7.89e-02 | 7.14e-01 |
| REACTOME TRAF3 DEPENDENT IRF ACTIVATION PATHWAY | 15 | 2.84e-01 | -1.60e-01 | 7.17e-01 |
| REACTOME TOLL LIKE RECEPTOR CASCADES | 158 | 2.85e-01 | -4.92e-02 | 7.19e-01 |
| REACTOME TNF SIGNALING | 54 | 2.88e-01 | -8.35e-02 | 7.24e-01 |
| REACTOME DNA REPLICATION INITIATION | 7 | 2.88e-01 | -2.32e-01 | 7.24e-01 |
| REACTOME CREB1 PHOSPHORYLATION THROUGH THE ACTIVATION OF ADENYLATE CYCLASE | 11 | 2.89e-01 | 1.85e-01 | 7.24e-01 |
| REACTOME RESOLUTION OF D LOOP STRUCTURES THROUGH SYNTHESIS DEPENDENT STRAND ANNEALING SDSA | 27 | 2.90e-01 | -1.18e-01 | 7.24e-01 |
| REACTOME P75NTR SIGNALS VIA NF KB | 15 | 2.90e-01 | -1.58e-01 | 7.24e-01 |
| REACTOME WNT5A DEPENDENT INTERNALIZATION OF FZD2 FZD5 AND ROR2 | 13 | 2.91e-01 | 1.69e-01 | 7.24e-01 |
| REACTOME APEX1 INDEPENDENT RESOLUTION OF AP SITES VIA THE SINGLE NUCLEOTIDE REPLACEMENT PATHWAY | 7 | 2.92e-01 | 2.30e-01 | 7.24e-01 |
| REACTOME DEADENYLATION DEPENDENT MRNA DECAY | 56 | 2.92e-01 | -8.14e-02 | 7.24e-01 |
| REACTOME ACETYLCHOLINE REGULATES INSULIN SECRETION | 10 | 2.93e-01 | 1.92e-01 | 7.24e-01 |
| REACTOME BETA CATENIN INDEPENDENT WNT SIGNALING | 145 | 2.93e-01 | -5.06e-02 | 7.24e-01 |
| REACTOME INTERACTIONS OF VPR WITH HOST CELLULAR PROTEINS | 35 | 2.93e-01 | -1.03e-01 | 7.24e-01 |
| REACTOME SYNTHESIS OF WYBUTOSINE AT G37 OF TRNA PHE | 6 | 2.93e-01 | -2.48e-01 | 7.24e-01 |
| REACTOME TRIGLYCERIDE BIOSYNTHESIS | 12 | 2.93e-01 | 1.75e-01 | 7.24e-01 |
| REACTOME RHOB GTPASE CYCLE | 67 | 2.94e-01 | 7.42e-02 | 7.24e-01 |
| REACTOME IRS ACTIVATION | 5 | 2.94e-01 | 2.71e-01 | 7.24e-01 |
| REACTOME CLEC7A INFLAMMASOME PATHWAY | 6 | 2.97e-01 | -2.46e-01 | 7.28e-01 |
| REACTOME DOWNREGULATION OF ERBB4 SIGNALING | 9 | 2.97e-01 | -2.01e-01 | 7.28e-01 |
| REACTOME RRNA MODIFICATION IN THE MITOCHONDRION | 6 | 2.97e-01 | 2.46e-01 | 7.28e-01 |
| REACTOME ADENYLATE CYCLASE ACTIVATING PATHWAY | 10 | 2.98e-01 | 1.90e-01 | 7.28e-01 |
| REACTOME DEFECTIVE INTRINSIC PATHWAY FOR APOPTOSIS | 25 | 2.98e-01 | -1.20e-01 | 7.28e-01 |
| REACTOME ARACHIDONATE PRODUCTION FROM DAG | 5 | 2.99e-01 | 2.68e-01 | 7.28e-01 |
| REACTOME GAP JUNCTION TRAFFICKING AND REGULATION | 49 | 2.99e-01 | 8.57e-02 | 7.28e-01 |
| REACTOME PROSTANOID LIGAND RECEPTORS | 9 | 2.99e-01 | -2.00e-01 | 7.28e-01 |
| REACTOME DOWNSTREAM SIGNALING OF ACTIVATED FGFR3 | 24 | 3.01e-01 | 1.22e-01 | 7.29e-01 |
| REACTOME BIOSYNTHESIS OF THE N GLYCAN PRECURSOR DOLICHOL LIPID LINKED OLIGOSACCHARIDE LLO AND TRANSFER TO A NASCENT PROTEIN | 76 | 3.01e-01 | 6.86e-02 | 7.29e-01 |
| REACTOME VITAMIN B5 PANTOTHENATE METABOLISM | 16 | 3.01e-01 | -1.49e-01 | 7.29e-01 |
| REACTOME DOWNSTREAM SIGNALING OF ACTIVATED FGFR1 | 31 | 3.02e-01 | 1.07e-01 | 7.29e-01 |
| REACTOME INTERLEUKIN 21 SIGNALING | 9 | 3.02e-01 | -1.99e-01 | 7.29e-01 |
| REACTOME CARNITINE METABOLISM | 13 | 3.03e-01 | 1.65e-01 | 7.29e-01 |
| REACTOME ADENYLATE CYCLASE INHIBITORY PATHWAY | 14 | 3.03e-01 | 1.59e-01 | 7.29e-01 |
| REACTOME INTERLEUKIN 15 SIGNALING | 13 | 3.03e-01 | -1.65e-01 | 7.29e-01 |
| REACTOME SYNTHESIS OF VERY LONG CHAIN FATTY ACYL COAS | 23 | 3.05e-01 | 1.24e-01 | 7.31e-01 |
| REACTOME CASPASE ACTIVATION VIA EXTRINSIC APOPTOTIC SIGNALLING PATHWAY | 25 | 3.05e-01 | -1.19e-01 | 7.31e-01 |
| REACTOME INACTIVATION OF CSF3 G CSF SIGNALING | 25 | 3.05e-01 | -1.18e-01 | 7.31e-01 |
| REACTOME RHO GTPASES ACTIVATE FORMINS | 136 | 3.06e-01 | -5.08e-02 | 7.31e-01 |
| REACTOME ORGANELLE BIOGENESIS AND MAINTENANCE | 277 | 3.06e-01 | -3.57e-02 | 7.31e-01 |
| REACTOME SENSORY PERCEPTION OF SALTY TASTE | 6 | 3.08e-01 | 2.40e-01 | 7.32e-01 |
| REACTOME SODIUM COUPLED PHOSPHATE COTRANSPORTERS | 5 | 3.08e-01 | 2.63e-01 | 7.32e-01 |
| REACTOME CLASS B 2 SECRETIN FAMILY RECEPTORS | 93 | 3.08e-01 | -6.11e-02 | 7.32e-01 |
| REACTOME NEF MEDIATED CD8 DOWN REGULATION | 7 | 3.11e-01 | 2.21e-01 | 7.38e-01 |
| REACTOME OTHER INTERLEUKIN SIGNALING | 24 | 3.11e-01 | 1.19e-01 | 7.38e-01 |
| REACTOME HSF1 DEPENDENT TRANSACTIVATION | 37 | 3.12e-01 | -9.60e-02 | 7.38e-01 |
| REACTOME MITOCHONDRIAL TRNA AMINOACYLATION | 20 | 3.13e-01 | -1.30e-01 | 7.38e-01 |
| REACTOME POLYMERASE SWITCHING | 13 | 3.13e-01 | -1.62e-01 | 7.38e-01 |
| REACTOME COMMON PATHWAY OF FIBRIN CLOT FORMATION | 21 | 3.13e-01 | 1.27e-01 | 7.38e-01 |
| REACTOME ACTIVATION OF THE PRE REPLICATIVE COMPLEX | 31 | 3.15e-01 | -1.04e-01 | 7.38e-01 |
| REACTOME BMAL1 CLOCK NPAS2 ACTIVATES CIRCADIAN GENE EXPRESSION | 26 | 3.16e-01 | 1.14e-01 | 7.38e-01 |
| REACTOME NUCLEOTIDE LIKE PURINERGIC RECEPTORS | 13 | 3.16e-01 | 1.61e-01 | 7.38e-01 |
| REACTOME REPRESSION OF WNT TARGET GENES | 14 | 3.17e-01 | -1.55e-01 | 7.38e-01 |
| REACTOME TRANSPORT OF NUCLEOSIDES AND FREE PURINE AND PYRIMIDINE BASES ACROSS THE PLASMA MEMBRANE | 10 | 3.17e-01 | 1.83e-01 | 7.38e-01 |
| REACTOME TBC RABGAPS | 40 | 3.17e-01 | 9.14e-02 | 7.38e-01 |
| REACTOME TFAP2A ACTS AS A TRANSCRIPTIONAL REPRESSOR DURING RETINOIC ACID INDUCED CELL DIFFERENTIATION | 5 | 3.17e-01 | -2.58e-01 | 7.38e-01 |
| REACTOME CARBOXYTERMINAL POST TRANSLATIONAL MODIFICATIONS OF TUBULIN | 45 | 3.18e-01 | -8.61e-02 | 7.38e-01 |
| REACTOME SPRY REGULATION OF FGF SIGNALING | 16 | 3.18e-01 | -1.44e-01 | 7.38e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION OF WHITE ADIPOCYTE DIFFERENTIATION | 81 | 3.18e-01 | -6.41e-02 | 7.38e-01 |
| REACTOME RUNX3 REGULATES P14 ARF | 10 | 3.18e-01 | -1.82e-01 | 7.38e-01 |
| REACTOME ATTACHMENT OF GPI ANCHOR TO UPAR | 7 | 3.19e-01 | -2.18e-01 | 7.38e-01 |
| REACTOME SYNTHESIS OF SUBSTRATES IN N GLYCAN BIOSYTHESIS | 62 | 3.19e-01 | 7.32e-02 | 7.38e-01 |
| REACTOME TRIGLYCERIDE METABOLISM | 35 | 3.22e-01 | 9.68e-02 | 7.42e-01 |
| REACTOME TRANS GOLGI NETWORK VESICLE BUDDING | 67 | 3.22e-01 | -7.00e-02 | 7.42e-01 |
| REACTOME AFLATOXIN ACTIVATION AND DETOXIFICATION | 19 | 3.22e-01 | 1.31e-01 | 7.42e-01 |
| REACTOME NUCLEAR IMPORT OF REV PROTEIN | 34 | 3.22e-01 | -9.80e-02 | 7.42e-01 |
| REACTOME PECAM1 INTERACTIONS | 12 | 3.24e-01 | -1.65e-01 | 7.42e-01 |
| REACTOME INSULIN RECEPTOR SIGNALLING CASCADE | 53 | 3.24e-01 | 7.83e-02 | 7.42e-01 |
| REACTOME RUNX2 REGULATES GENES INVOLVED IN CELL MIGRATION | 8 | 3.24e-01 | 2.01e-01 | 7.42e-01 |
| REACTOME INTERLEUKIN 17 SIGNALING | 66 | 3.24e-01 | -7.01e-02 | 7.42e-01 |
| REACTOME TRANSCRIPTION OF THE HIV GENOME | 66 | 3.25e-01 | -7.01e-02 | 7.42e-01 |
| REACTOME EPHA MEDIATED GROWTH CONE COLLAPSE | 29 | 3.26e-01 | 1.05e-01 | 7.42e-01 |
| REACTOME CD28 DEPENDENT PI3K AKT SIGNALING | 22 | 3.26e-01 | 1.21e-01 | 7.42e-01 |
| REACTOME CD209 DC SIGN SIGNALING | 20 | 3.27e-01 | -1.27e-01 | 7.43e-01 |
| REACTOME SIGNALING BY BMP | 27 | 3.27e-01 | 1.09e-01 | 7.43e-01 |
| REACTOME IRS MEDIATED SIGNALLING | 47 | 3.29e-01 | 8.23e-02 | 7.46e-01 |
| REACTOME GOLGI ASSOCIATED VESICLE BIOGENESIS | 51 | 3.30e-01 | -7.89e-02 | 7.47e-01 |
| REACTOME FGFR1B LIGAND BINDING AND ACTIVATION | 6 | 3.30e-01 | 2.30e-01 | 7.47e-01 |
| REACTOME SIGNALING BY NOTCH2 | 32 | 3.31e-01 | -9.92e-02 | 7.48e-01 |
| REACTOME HEDGEHOG OFF STATE | 111 | 3.32e-01 | -5.34e-02 | 7.48e-01 |
| REACTOME NETRIN 1 SIGNALING | 49 | 3.32e-01 | -8.01e-02 | 7.48e-01 |
| REACTOME MISCELLANEOUS SUBSTRATES | 12 | 3.33e-01 | -1.61e-01 | 7.48e-01 |
| REACTOME SENSORY PROCESSING OF SOUND BY OUTER HAIR CELLS OF THE COCHLEA | 52 | 3.33e-01 | -7.75e-02 | 7.48e-01 |
| REACTOME PTEN REGULATION | 135 | 3.34e-01 | -4.82e-02 | 7.48e-01 |
| REACTOME LINOLEIC ACID LA METABOLISM | 7 | 3.34e-01 | 2.11e-01 | 7.48e-01 |
| REACTOME AZATHIOPRINE ADME | 22 | 3.35e-01 | -1.19e-01 | 7.49e-01 |
| REACTOME CHL1 INTERACTIONS | 9 | 3.36e-01 | -1.85e-01 | 7.49e-01 |
| REACTOME MRNA DECAY BY 3 TO 5 EXORIBONUCLEASE | 16 | 3.36e-01 | -1.39e-01 | 7.49e-01 |
| REACTOME ESTROGEN STIMULATED SIGNALING THROUGH PRKCZ | 6 | 3.36e-01 | 2.27e-01 | 7.49e-01 |
| REACTOME PYRIMIDINE SALVAGE | 10 | 3.37e-01 | -1.75e-01 | 7.49e-01 |
| REACTOME RELAXIN RECEPTORS | 8 | 3.37e-01 | 1.96e-01 | 7.49e-01 |
| REACTOME PTK6 PROMOTES HIF1A STABILIZATION | 6 | 3.39e-01 | -2.25e-01 | 7.52e-01 |
| REACTOME REGULATION OF TLR BY ENDOGENOUS LIGAND | 21 | 3.40e-01 | 1.20e-01 | 7.53e-01 |
| REACTOME MET INTERACTS WITH TNS PROTEINS | 5 | 3.41e-01 | 2.46e-01 | 7.55e-01 |
| REACTOME WNT LIGAND BIOGENESIS AND TRAFFICKING | 25 | 3.42e-01 | -1.10e-01 | 7.55e-01 |
| REACTOME TRAF6 MEDIATED INDUCTION OF TAK1 COMPLEX WITHIN TLR4 COMPLEX | 15 | 3.43e-01 | -1.41e-01 | 7.55e-01 |
| REACTOME INHIBITION OF THE PROTEOLYTIC ACTIVITY OF APC C REQUIRED FOR THE ONSET OF ANAPHASE BY MITOTIC SPINDLE CHECKPOINT COMPONENTS | 21 | 3.43e-01 | -1.20e-01 | 7.55e-01 |
| REACTOME TNF RECEPTOR SUPERFAMILY TNFSF MEMBERS MEDIATING NON CANONICAL NF KB PATHWAY | 16 | 3.43e-01 | -1.37e-01 | 7.55e-01 |
| REACTOME CONJUGATION OF BENZOATE WITH GLYCINE | 6 | 3.43e-01 | 2.23e-01 | 7.55e-01 |
| REACTOME ADORA2B MEDIATED ANTI INFLAMMATORY CYTOKINES PRODUCTION | 42 | 3.44e-01 | 8.44e-02 | 7.55e-01 |
| REACTOME SMAC XIAP REGULATED APOPTOTIC RESPONSE | 7 | 3.47e-01 | -2.05e-01 | 7.60e-01 |
| REACTOME LATE ENDOSOMAL MICROAUTOPHAGY | 33 | 3.48e-01 | -9.44e-02 | 7.62e-01 |
| REACTOME TLR3 MEDIATED TICAM1 DEPENDENT PROGRAMMED CELL DEATH | 6 | 3.50e-01 | -2.20e-01 | 7.65e-01 |
| REACTOME TOLL LIKE RECEPTOR TLR1 TLR2 CASCADE | 109 | 3.51e-01 | -5.17e-02 | 7.65e-01 |
| REACTOME TRANSLATION OF REPLICASE AND ASSEMBLY OF THE REPLICATION TRANSCRIPTION COMPLEX | 14 | 3.51e-01 | -1.44e-01 | 7.65e-01 |
| REACTOME SIGNALING BY FGFR2 IN DISEASE | 42 | 3.51e-01 | 8.31e-02 | 7.65e-01 |
| REACTOME OAS ANTIVIRAL RESPONSE | 8 | 3.52e-01 | -1.90e-01 | 7.65e-01 |
| REACTOME SIGNALLING TO P38 VIA RIT AND RIN | 5 | 3.53e-01 | -2.40e-01 | 7.66e-01 |
| REACTOME FRS MEDIATED FGFR4 SIGNALING | 21 | 3.53e-01 | 1.17e-01 | 7.66e-01 |
| REACTOME RHO GTPASE CYCLE | 423 | 3.54e-01 | 2.63e-02 | 7.66e-01 |
| REACTOME UPTAKE AND FUNCTION OF DIPHTHERIA TOXIN | 6 | 3.55e-01 | -2.18e-01 | 7.66e-01 |
| REACTOME APOBEC3G MEDIATED RESISTANCE TO HIV 1 INFECTION | 5 | 3.55e-01 | -2.39e-01 | 7.66e-01 |
| REACTOME CONSTITUTIVE SIGNALING BY ABERRANT PI3K IN CANCER | 77 | 3.58e-01 | -6.06e-02 | 7.68e-01 |
| REACTOME ALPHA PROTEIN KINASE 1 SIGNALING PATHWAY | 10 | 3.58e-01 | -1.68e-01 | 7.68e-01 |
| REACTOME ERYTHROCYTES TAKE UP OXYGEN AND RELEASE CARBON DIOXIDE | 9 | 3.58e-01 | -1.77e-01 | 7.68e-01 |
| REACTOME MRNA DECAY BY 5 TO 3 EXORIBONUCLEASE | 15 | 3.58e-01 | -1.37e-01 | 7.68e-01 |
| REACTOME GLUCAGON TYPE LIGAND RECEPTORS | 32 | 3.58e-01 | -9.38e-02 | 7.68e-01 |
| REACTOME SYNTHESIS OF PC | 27 | 3.59e-01 | -1.02e-01 | 7.68e-01 |
| REACTOME GABA RECEPTOR ACTIVATION | 57 | 3.59e-01 | 7.02e-02 | 7.68e-01 |
| REACTOME LGI ADAM INTERACTIONS | 14 | 3.61e-01 | 1.41e-01 | 7.71e-01 |
| REACTOME IRAK2 MEDIATED ACTIVATION OF TAK1 COMPLEX | 9 | 3.61e-01 | -1.76e-01 | 7.71e-01 |
| REACTOME FGFR2 MUTANT RECEPTOR ACTIVATION | 32 | 3.63e-01 | 9.29e-02 | 7.73e-01 |
| REACTOME ELASTIC FIBRE FORMATION | 44 | 3.63e-01 | 7.92e-02 | 7.73e-01 |
| REACTOME FREE FATTY ACIDS REGULATE INSULIN SECRETION | 10 | 3.64e-01 | 1.66e-01 | 7.73e-01 |
| REACTOME VIRAL MESSENGER RNA SYNTHESIS | 44 | 3.65e-01 | -7.90e-02 | 7.73e-01 |
| REACTOME INTERACTION BETWEEN L1 AND ANKYRINS | 30 | 3.65e-01 | -9.56e-02 | 7.73e-01 |
| REACTOME PREVENTION OF PHAGOSOMAL LYSOSOMAL FUSION | 9 | 3.66e-01 | -1.74e-01 | 7.73e-01 |
| REACTOME NS1 MEDIATED EFFECTS ON HOST PATHWAYS | 41 | 3.66e-01 | -8.16e-02 | 7.73e-01 |
| REACTOME SYNTHESIS OF DIPHTHAMIDE EEF2 | 8 | 3.66e-01 | -1.84e-01 | 7.73e-01 |
| REACTOME NUCLEAR PORE COMPLEX NPC DISASSEMBLY | 36 | 3.66e-01 | -8.70e-02 | 7.73e-01 |
| REACTOME SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 27 HYDROXYCHOLESTEROL | 15 | 3.68e-01 | 1.34e-01 | 7.74e-01 |
| REACTOME LECTIN PATHWAY OF COMPLEMENT ACTIVATION | 8 | 3.68e-01 | 1.84e-01 | 7.74e-01 |
| REACTOME GAP JUNCTION ASSEMBLY | 36 | 3.69e-01 | 8.66e-02 | 7.74e-01 |
| REACTOME APOPTOSIS INDUCED DNA FRAGMENTATION | 13 | 3.69e-01 | -1.44e-01 | 7.74e-01 |
| REACTOME ERYTHROPOIETIN ACTIVATES PHOSPHOLIPASE C GAMMA PLCG | 7 | 3.69e-01 | 1.96e-01 | 7.74e-01 |
| REACTOME ERBB2 ACTIVATES PTK6 SIGNALING | 13 | 3.70e-01 | -1.44e-01 | 7.74e-01 |
| REACTOME SCAVENGING OF HEME FROM PLASMA | 13 | 3.71e-01 | 1.43e-01 | 7.76e-01 |
| REACTOME NCAM1 INTERACTIONS | 41 | 3.72e-01 | 8.05e-02 | 7.76e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF CELL CYCLE GENES | 49 | 3.73e-01 | -7.35e-02 | 7.76e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF GENES INVOLVED IN G2 CELL CYCLE ARREST | 18 | 3.73e-01 | -1.21e-01 | 7.76e-01 |
| REACTOME LAGGING STRAND SYNTHESIS | 19 | 3.74e-01 | -1.18e-01 | 7.76e-01 |
| REACTOME DISEASES OF METABOLISM | 237 | 3.74e-01 | 3.35e-02 | 7.76e-01 |
| REACTOME RUNX1 AND FOXP3 CONTROL THE DEVELOPMENT OF REGULATORY T LYMPHOCYTES TREGS | 9 | 3.75e-01 | -1.71e-01 | 7.76e-01 |
| REACTOME LOSS OF FUNCTION OF SMAD2 3 IN CANCER | 7 | 3.76e-01 | -1.93e-01 | 7.76e-01 |
| REACTOME ACTIVATION OF CASPASES THROUGH APOPTOSOME MEDIATED CLEAVAGE | 5 | 3.76e-01 | -2.29e-01 | 7.76e-01 |
| REACTOME PROCESSING OF INTRONLESS PRE MRNAS | 19 | 3.76e-01 | -1.17e-01 | 7.76e-01 |
| REACTOME HORMONE LIGAND BINDING RECEPTORS | 12 | 3.76e-01 | 1.48e-01 | 7.76e-01 |
| REACTOME ALPHA LINOLENIC OMEGA3 AND LINOLEIC OMEGA6 ACID METABOLISM | 12 | 3.76e-01 | 1.47e-01 | 7.76e-01 |
| REACTOME RUNX3 REGULATES YAP1 MEDIATED TRANSCRIPTION | 8 | 3.77e-01 | 1.80e-01 | 7.76e-01 |
| REACTOME NEF MEDIATED CD4 DOWN REGULATION | 9 | 3.78e-01 | 1.70e-01 | 7.76e-01 |
| REACTOME DIGESTION AND ABSORPTION | 22 | 3.78e-01 | 1.09e-01 | 7.76e-01 |
| REACTOME RORA ACTIVATES GENE EXPRESSION | 17 | 3.79e-01 | 1.23e-01 | 7.77e-01 |
| REACTOME RAC1 GTPASE CYCLE | 172 | 3.80e-01 | 3.88e-02 | 7.78e-01 |
| REACTOME MITOCHONDRIAL IRON SULFUR CLUSTER BIOGENESIS | 13 | 3.80e-01 | -1.41e-01 | 7.78e-01 |
| REACTOME MOLYBDENUM COFACTOR BIOSYNTHESIS | 6 | 3.81e-01 | -2.06e-01 | 7.78e-01 |
| REACTOME NOD1 2 SIGNALING PATHWAY | 33 | 3.81e-01 | -8.81e-02 | 7.78e-01 |
| REACTOME ACETYLCHOLINE INHIBITS CONTRACTION OF OUTER HAIR CELLS | 5 | 3.81e-01 | 2.26e-01 | 7.78e-01 |
| REACTOME TFAP2 AP 2 FAMILY REGULATES TRANSCRIPTION OF CELL CYCLE FACTORS | 5 | 3.82e-01 | -2.26e-01 | 7.78e-01 |
| REACTOME ACTIVATION OF NOXA AND TRANSLOCATION TO MITOCHONDRIA | 5 | 3.84e-01 | -2.25e-01 | 7.80e-01 |
| REACTOME SIGNALING BY KIT IN DISEASE | 20 | 3.84e-01 | -1.12e-01 | 7.81e-01 |
| REACTOME MET ACTIVATES PI3K AKT SIGNALING | 6 | 3.87e-01 | -2.04e-01 | 7.82e-01 |
| REACTOME BETA OXIDATION OF BUTANOYL COA TO ACETYL COA | 5 | 3.87e-01 | 2.24e-01 | 7.82e-01 |
| REACTOME THE PHOTOTRANSDUCTION CASCADE | 32 | 3.87e-01 | 8.84e-02 | 7.82e-01 |
| REACTOME PI 3K CASCADE FGFR4 | 19 | 3.88e-01 | 1.14e-01 | 7.82e-01 |
| REACTOME G2 PHASE | 5 | 3.88e-01 | -2.23e-01 | 7.82e-01 |
| REACTOME MITOCHONDRIAL BIOGENESIS | 87 | 3.89e-01 | -5.35e-02 | 7.82e-01 |
| REACTOME SUMOYLATION OF UBIQUITINYLATION PROTEINS | 39 | 3.89e-01 | -7.97e-02 | 7.82e-01 |
| REACTOME SIALIC ACID METABOLISM | 33 | 3.89e-01 | 8.66e-02 | 7.82e-01 |
| REACTOME NUCLEAR ENVELOPE BREAKDOWN | 52 | 3.89e-01 | -6.90e-02 | 7.82e-01 |
| REACTOME PTK6 REGULATES RTKS AND THEIR EFFECTORS AKT1 AND DOK1 | 9 | 3.90e-01 | -1.66e-01 | 7.82e-01 |
| REACTOME METABOLISM OF INGESTED SEMET SEC MESEC INTO H2SE | 7 | 3.90e-01 | 1.88e-01 | 7.82e-01 |
| REACTOME CELL SURFACE INTERACTIONS AT THE VASCULAR WALL | 129 | 3.91e-01 | -4.37e-02 | 7.83e-01 |
| REACTOME SIGNALING BY TYPE 1 INSULIN LIKE GROWTH FACTOR 1 RECEPTOR IGF1R | 52 | 3.93e-01 | 6.84e-02 | 7.86e-01 |
| REACTOME SUMOYLATION OF SUMOYLATION PROTEINS | 35 | 3.94e-01 | -8.33e-02 | 7.86e-01 |
| REACTOME REGULATION OF LOCALIZATION OF FOXO TRANSCRIPTION FACTORS | 11 | 3.94e-01 | 1.48e-01 | 7.86e-01 |
| REACTOME AUTOPHAGY | 144 | 3.95e-01 | -4.10e-02 | 7.87e-01 |
| REACTOME JNK C JUN KINASES PHOSPHORYLATION AND ACTIVATION MEDIATED BY ACTIVATED HUMAN TAK1 | 19 | 3.96e-01 | -1.13e-01 | 7.87e-01 |
| REACTOME ACTIVATION OF AMPK DOWNSTREAM OF NMDARS | 28 | 3.96e-01 | 9.27e-02 | 7.87e-01 |
| REACTOME PYRUVATE METABOLISM AND CITRIC ACID TCA CYCLE | 52 | 3.98e-01 | 6.77e-02 | 7.91e-01 |
| REACTOME PLATELET ADHESION TO EXPOSED COLLAGEN | 15 | 4.00e-01 | 1.26e-01 | 7.92e-01 |
| REACTOME CIRCADIAN CLOCK | 68 | 4.00e-01 | 5.90e-02 | 7.92e-01 |
| REACTOME ESTROGEN DEPENDENT NUCLEAR EVENTS DOWNSTREAM OF ESR MEMBRANE SIGNALING | 23 | 4.01e-01 | -1.01e-01 | 7.92e-01 |
| REACTOME CATION COUPLED CHLORIDE COTRANSPORTERS | 7 | 4.01e-01 | 1.83e-01 | 7.92e-01 |
| REACTOME POSTMITOTIC NUCLEAR PORE COMPLEX NPC REFORMATION | 27 | 4.01e-01 | -9.34e-02 | 7.92e-01 |
| REACTOME FATTY ACYL COA BIOSYNTHESIS | 36 | 4.04e-01 | 8.04e-02 | 7.94e-01 |
| REACTOME TRNA AMINOACYLATION | 40 | 4.04e-01 | -7.62e-02 | 7.94e-01 |
| REACTOME CELL JUNCTION ORGANIZATION | 89 | 4.05e-01 | 5.11e-02 | 7.94e-01 |
| REACTOME SYNTHESIS SECRETION AND INACTIVATION OF GLUCAGON LIKE PEPTIDE 1 GLP 1 | 20 | 4.05e-01 | -1.08e-01 | 7.94e-01 |
| REACTOME SIGNALING BY MEMBRANE TETHERED FUSIONS OF PDGFRA OR PDGFRB | 5 | 4.05e-01 | 2.15e-01 | 7.94e-01 |
| REACTOME AMINO ACID TRANSPORT ACROSS THE PLASMA MEMBRANE | 30 | 4.06e-01 | 8.76e-02 | 7.94e-01 |
| REACTOME DISEASES OF MISMATCH REPAIR MMR | 5 | 4.07e-01 | -2.14e-01 | 7.94e-01 |
| REACTOME SYNTHESIS OF PIPS AT THE PLASMA MEMBRANE | 48 | 4.07e-01 | 6.92e-02 | 7.94e-01 |
| REACTOME SENSING OF DNA DOUBLE STRAND BREAKS | 6 | 4.07e-01 | -1.95e-01 | 7.94e-01 |
| REACTOME INTERACTIONS OF REV WITH HOST CELLULAR PROTEINS | 37 | 4.07e-01 | -7.87e-02 | 7.94e-01 |
| REACTOME POST CHAPERONIN TUBULIN FOLDING PATHWAY | 23 | 4.08e-01 | 9.97e-02 | 7.94e-01 |
| REACTOME RHO GTPASES ACTIVATE RHOTEKIN AND RHOPHILINS | 9 | 4.08e-01 | -1.59e-01 | 7.94e-01 |
| REACTOME GRB2 SOS PROVIDES LINKAGE TO MAPK SIGNALING FOR INTEGRINS | 15 | 4.09e-01 | -1.23e-01 | 7.94e-01 |
| REACTOME SIGNALING BY ERBB2 IN CANCER | 26 | 4.10e-01 | -9.34e-02 | 7.95e-01 |
| REACTOME TAK1 DEPENDENT IKK AND NF KAPPA B ACTIVATION | 41 | 4.10e-01 | -7.43e-02 | 7.95e-01 |
| REACTOME PI3K EVENTS IN ERBB2 SIGNALING | 16 | 4.11e-01 | -1.19e-01 | 7.95e-01 |
| REACTOME TRANSLOCATION OF SLC2A4 GLUT4 TO THE PLASMA MEMBRANE | 71 | 4.11e-01 | 5.64e-02 | 7.95e-01 |
| REACTOME IRF3 MEDIATED INDUCTION OF TYPE I IFN | 13 | 4.13e-01 | 1.31e-01 | 7.95e-01 |
| REACTOME GLYCOGEN STORAGE DISEASES | 15 | 4.13e-01 | -1.22e-01 | 7.95e-01 |
| REACTOME GPER1 SIGNALING | 45 | 4.13e-01 | 7.05e-02 | 7.95e-01 |
| REACTOME TELOMERE C STRAND SYNTHESIS INITIATION | 12 | 4.13e-01 | -1.36e-01 | 7.95e-01 |
| REACTOME ACTIVATION OF SMO | 18 | 4.14e-01 | 1.11e-01 | 7.95e-01 |
| REACTOME CYCLIN A B1 B2 ASSOCIATED EVENTS DURING G2 M TRANSITION | 24 | 4.14e-01 | -9.62e-02 | 7.95e-01 |
| REACTOME SHC MEDIATED CASCADE FGFR4 | 19 | 4.16e-01 | 1.08e-01 | 7.95e-01 |
| REACTOME COPII MEDIATED VESICLE TRANSPORT | 66 | 4.16e-01 | -5.80e-02 | 7.95e-01 |
| REACTOME RUNX2 REGULATES CHONDROCYTE MATURATION | 5 | 4.16e-01 | 2.10e-01 | 7.95e-01 |
| REACTOME ATTACHMENT AND ENTRY | 16 | 4.16e-01 | 1.17e-01 | 7.95e-01 |
| REACTOME REGULATION OF CHOLESTEROL BIOSYNTHESIS BY SREBP SREBF | 53 | 4.17e-01 | 6.45e-02 | 7.95e-01 |
| REACTOME HDR THROUGH MMEJ ALT NHEJ | 12 | 4.17e-01 | -1.35e-01 | 7.95e-01 |
| REACTOME DNA STRAND ELONGATION | 31 | 4.17e-01 | -8.42e-02 | 7.95e-01 |
| REACTOME CELL EXTRACELLULAR MATRIX INTERACTIONS | 16 | 4.20e-01 | 1.17e-01 | 7.98e-01 |
| REACTOME ASPARTATE AND ASPARAGINE METABOLISM | 11 | 4.21e-01 | 1.40e-01 | 7.99e-01 |
| REACTOME TACHYKININ RECEPTORS BIND TACHYKININS | 5 | 4.21e-01 | -2.08e-01 | 8.00e-01 |
| REACTOME YAP1 AND WWTR1 TAZ STIMULATED GENE EXPRESSION | 15 | 4.22e-01 | 1.20e-01 | 8.00e-01 |
| REACTOME NUCLEAR ENVELOPE NE REASSEMBLY | 74 | 4.23e-01 | -5.39e-02 | 8.00e-01 |
| REACTOME RUNX2 REGULATES OSTEOBLAST DIFFERENTIATION | 22 | 4.23e-01 | 9.87e-02 | 8.00e-01 |
| REACTOME INFECTION WITH MYCOBACTERIUM TUBERCULOSIS | 25 | 4.23e-01 | -9.25e-02 | 8.00e-01 |
| REACTOME RUNX3 REGULATES NOTCH SIGNALING | 13 | 4.24e-01 | -1.28e-01 | 8.01e-01 |
| REACTOME RHOT1 GTPASE CYCLE | 5 | 4.26e-01 | -2.06e-01 | 8.03e-01 |
| REACTOME SYNTHESIS OF PA | 38 | 4.26e-01 | -7.46e-02 | 8.03e-01 |
| REACTOME CELL DEATH SIGNALLING VIA NRAGE NRIF AND NADE | 69 | 4.27e-01 | 5.53e-02 | 8.03e-01 |
| REACTOME RAB GERANYLGERANYLATION | 57 | 4.29e-01 | -6.06e-02 | 8.04e-01 |
| REACTOME SULFUR AMINO ACID METABOLISM | 27 | 4.29e-01 | -8.80e-02 | 8.04e-01 |
| REACTOME REGULATION OF COMMISSURAL AXON PATHFINDING BY SLIT AND ROBO | 10 | 4.29e-01 | -1.44e-01 | 8.05e-01 |
| REACTOME SYNTHESIS OF BILE ACIDS AND BILE SALTS | 34 | 4.30e-01 | 7.81e-02 | 8.06e-01 |
| REACTOME NEF AND SIGNAL TRANSDUCTION | 8 | 4.32e-01 | -1.61e-01 | 8.06e-01 |
| REACTOME EPHRIN SIGNALING | 17 | 4.32e-01 | 1.10e-01 | 8.06e-01 |
| REACTOME CREB1 PHOSPHORYLATION THROUGH NMDA RECEPTOR MEDIATED ACTIVATION OF RAS SIGNALING | 25 | 4.34e-01 | 9.04e-02 | 8.06e-01 |
| REACTOME PROCESSIVE SYNTHESIS ON THE LAGGING STRAND | 14 | 4.34e-01 | -1.21e-01 | 8.06e-01 |
| REACTOME TRANSPORT OF RCBL WITHIN THE BODY | 8 | 4.34e-01 | 1.60e-01 | 8.06e-01 |
| REACTOME TRANSCRIPTION OF E2F TARGETS UNDER NEGATIVE CONTROL BY P107 RBL1 AND P130 RBL2 IN COMPLEX WITH HDAC1 | 16 | 4.35e-01 | -1.13e-01 | 8.06e-01 |
| REACTOME RHOBTB1 GTPASE CYCLE | 22 | 4.35e-01 | 9.62e-02 | 8.06e-01 |
| REACTOME REGULATION OF FOXO TRANSCRIPTIONAL ACTIVITY BY ACETYLATION | 9 | 4.35e-01 | -1.50e-01 | 8.06e-01 |
| REACTOME NEPHRIN FAMILY INTERACTIONS | 22 | 4.36e-01 | -9.60e-02 | 8.06e-01 |
| REACTOME SIGNALING BY ACTIVIN | 15 | 4.36e-01 | -1.16e-01 | 8.06e-01 |
| REACTOME PARASITE INFECTION | 57 | 4.36e-01 | -5.97e-02 | 8.06e-01 |
| REACTOME SIGNALING BY RNF43 MUTANTS | 8 | 4.37e-01 | 1.59e-01 | 8.07e-01 |
| REACTOME FREE FATTY ACID RECEPTORS | 5 | 4.38e-01 | 2.00e-01 | 8.09e-01 |
| REACTOME EPH EPHRIN MEDIATED REPULSION OF CELLS | 50 | 4.39e-01 | 6.33e-02 | 8.09e-01 |
| REACTOME 2 LTR CIRCLE FORMATION | 7 | 4.39e-01 | -1.69e-01 | 8.09e-01 |
| REACTOME THE ACTIVATION OF ARYLSULFATASES | 8 | 4.41e-01 | -1.57e-01 | 8.09e-01 |
| REACTOME ZINC TRANSPORTERS | 15 | 4.41e-01 | -1.15e-01 | 8.09e-01 |
| REACTOME SIGNALING BY MRAS COMPLEX MUTANTS | 7 | 4.42e-01 | -1.68e-01 | 8.09e-01 |
| REACTOME RNA POLYMERASE I TRANSCRIPTION INITIATION | 45 | 4.42e-01 | -6.63e-02 | 8.09e-01 |
| REACTOME NEUROFASCIN INTERACTIONS | 6 | 4.43e-01 | 1.81e-01 | 8.10e-01 |
| REACTOME SUMOYLATION OF TRANSCRIPTION COFACTORS | 43 | 4.45e-01 | 6.73e-02 | 8.14e-01 |
| REACTOME REGULATION OF GENE EXPRESSION IN EARLY PANCREATIC PRECURSOR CELLS | 8 | 4.46e-01 | -1.56e-01 | 8.14e-01 |
| REACTOME ARYL HYDROCARBON RECEPTOR SIGNALLING | 6 | 4.47e-01 | -1.79e-01 | 8.15e-01 |
| REACTOME NEGATIVE REGULATION OF FGFR1 SIGNALING | 32 | 4.47e-01 | 7.76e-02 | 8.15e-01 |
| REACTOME HIGHLY SODIUM PERMEABLE POSTSYNAPTIC ACETYLCHOLINE NICOTINIC RECEPTORS | 7 | 4.50e-01 | -1.65e-01 | 8.19e-01 |
| REACTOME NF KB ACTIVATION THROUGH FADD RIP 1 PATHWAY MEDIATED BY CASPASE 8 AND 10 | 12 | 4.51e-01 | -1.26e-01 | 8.19e-01 |
| REACTOME RESPONSE TO ELEVATED PLATELET CYTOSOLIC CA2 | 122 | 4.52e-01 | -3.95e-02 | 8.19e-01 |
| REACTOME INSERTION OF TAIL ANCHORED PROTEINS INTO THE ENDOPLASMIC RETICULUM MEMBRANE | 20 | 4.52e-01 | -9.72e-02 | 8.19e-01 |
| REACTOME ACTIVATION OF PUMA AND TRANSLOCATION TO MITOCHONDRIA | 9 | 4.52e-01 | 1.45e-01 | 8.19e-01 |
| REACTOME PTK6 REGULATES RHO GTPASES RAS GTPASE AND MAP KINASES | 14 | 4.53e-01 | 1.16e-01 | 8.20e-01 |
| REACTOME SIGNALING BY ERBB2 ECD MUTANTS | 16 | 4.54e-01 | -1.08e-01 | 8.20e-01 |
| REACTOME NR1H2 NR1H3 REGULATE GENE EXPRESSION TO LIMIT CHOLESTEROL UPTAKE | 5 | 4.54e-01 | 1.93e-01 | 8.20e-01 |
| REACTOME FCERI MEDIATED MAPK ACTIVATION | 32 | 4.56e-01 | -7.61e-02 | 8.21e-01 |
| REACTOME CHONDROITIN SULFATE DERMATAN SULFATE METABOLISM | 45 | 4.56e-01 | 6.42e-02 | 8.21e-01 |
| REACTOME P2Y RECEPTORS | 9 | 4.57e-01 | 1.43e-01 | 8.21e-01 |
| REACTOME SIGNALING BY NOTCH3 | 48 | 4.57e-01 | -6.21e-02 | 8.21e-01 |
| REACTOME CLATHRIN MEDIATED ENDOCYTOSIS | 139 | 4.58e-01 | -3.65e-02 | 8.21e-01 |
| REACTOME PURINERGIC SIGNALING IN LEISHMANIASIS INFECTION | 26 | 4.58e-01 | -8.41e-02 | 8.21e-01 |
| REACTOME ORGANIC ANION TRANSPORTERS | 10 | 4.58e-01 | -1.35e-01 | 8.21e-01 |
| REACTOME NOREPINEPHRINE NEUROTRANSMITTER RELEASE CYCLE | 17 | 4.60e-01 | 1.03e-01 | 8.22e-01 |
| REACTOME RHOBTB3 ATPASE CYCLE | 8 | 4.61e-01 | 1.51e-01 | 8.22e-01 |
| REACTOME SHC1 EVENTS IN ERBB4 SIGNALING | 14 | 4.61e-01 | -1.14e-01 | 8.22e-01 |
| REACTOME MAPK3 ERK1 ACTIVATION | 10 | 4.61e-01 | -1.35e-01 | 8.22e-01 |
| REACTOME INACTIVATION OF CDC42 AND RAC1 | 8 | 4.61e-01 | 1.50e-01 | 8.22e-01 |
| REACTOME SODIUM CALCIUM EXCHANGERS | 11 | 4.62e-01 | 1.28e-01 | 8.22e-01 |
| REACTOME SUMOYLATION OF CHROMATIN ORGANIZATION PROTEINS | 68 | 4.64e-01 | -5.13e-02 | 8.22e-01 |
| REACTOME HSP90 CHAPERONE CYCLE FOR STEROID HORMONE RECEPTORS SHR IN THE PRESENCE OF LIGAND | 55 | 4.65e-01 | -5.70e-02 | 8.22e-01 |
| REACTOME REGULATION OF GENE EXPRESSION IN BETA CELLS | 21 | 4.65e-01 | -9.20e-02 | 8.22e-01 |
| REACTOME MRNA EDITING | 10 | 4.66e-01 | -1.33e-01 | 8.22e-01 |
| REACTOME RUNX1 INTERACTS WITH CO FACTORS WHOSE PRECISE EFFECT ON RUNX1 TARGETS IS NOT KNOWN | 37 | 4.66e-01 | 6.93e-02 | 8.22e-01 |
| REACTOME MISMATCH REPAIR | 15 | 4.66e-01 | -1.09e-01 | 8.22e-01 |
| REACTOME MICRORNA MIRNA BIOGENESIS | 25 | 4.67e-01 | -8.41e-02 | 8.22e-01 |
| REACTOME INLB MEDIATED ENTRY OF LISTERIA MONOCYTOGENES INTO HOST CELL | 14 | 4.67e-01 | -1.12e-01 | 8.22e-01 |
| REACTOME CALNEXIN CALRETICULIN CYCLE | 26 | 4.67e-01 | -8.25e-02 | 8.22e-01 |
| REACTOME SMOOTH MUSCLE CONTRACTION | 43 | 4.67e-01 | 6.41e-02 | 8.22e-01 |
| REACTOME RAS PROCESSING | 22 | 4.67e-01 | -8.95e-02 | 8.22e-01 |
| REACTOME REGULATION OF GLUCOKINASE BY GLUCOKINASE REGULATORY PROTEIN | 32 | 4.69e-01 | -7.40e-02 | 8.24e-01 |
| REACTOME NEGATIVE REGULATION OF FGFR2 SIGNALING | 33 | 4.70e-01 | 7.27e-02 | 8.25e-01 |
| REACTOME PROTEIN METHYLATION | 17 | 4.70e-01 | -1.01e-01 | 8.25e-01 |
| REACTOME RESOLUTION OF AP SITES VIA THE MULTIPLE NUCLEOTIDE PATCH REPLACEMENT PATHWAY | 25 | 4.71e-01 | -8.34e-02 | 8.25e-01 |
| REACTOME GAP FILLING DNA REPAIR SYNTHESIS AND LIGATION IN GG NER | 25 | 4.72e-01 | -8.31e-02 | 8.25e-01 |
| REACTOME TANDEM PORE DOMAIN POTASSIUM CHANNELS | 12 | 4.72e-01 | 1.20e-01 | 8.25e-01 |
| REACTOME CRMPS IN SEMA3A SIGNALING | 15 | 4.73e-01 | 1.07e-01 | 8.25e-01 |
| REACTOME MYOGENESIS | 29 | 4.74e-01 | 7.68e-02 | 8.25e-01 |
| REACTOME TRANSPORT OF THE SLBP DEPENDANT MATURE MRNA | 36 | 4.74e-01 | -6.90e-02 | 8.25e-01 |
| REACTOME MRNA CAPPING | 28 | 4.74e-01 | -7.82e-02 | 8.25e-01 |
| REACTOME REGULATION OF IFNA IFNB SIGNALING | 23 | 4.74e-01 | -8.62e-02 | 8.25e-01 |
| REACTOME THROMBIN SIGNALLING THROUGH PROTEINASE ACTIVATED RECEPTORS PARS | 32 | 4.79e-01 | 7.23e-02 | 8.32e-01 |
| REACTOME DISEASES ASSOCIATED WITH GLYCOSYLATION PRECURSOR BIOSYNTHESIS | 15 | 4.81e-01 | -1.05e-01 | 8.35e-01 |
| REACTOME ER TO GOLGI ANTEROGRADE TRANSPORT | 152 | 4.82e-01 | -3.31e-02 | 8.35e-01 |
| REACTOME IRON UPTAKE AND TRANSPORT | 56 | 4.82e-01 | -5.43e-02 | 8.35e-01 |
| REACTOME ETHANOL OXIDATION | 12 | 4.83e-01 | -1.17e-01 | 8.36e-01 |
| REACTOME TP53 REGULATES METABOLIC GENES | 81 | 4.84e-01 | -4.50e-02 | 8.36e-01 |
| REACTOME DEGRADATION OF CYSTEINE AND HOMOCYSTEINE | 15 | 4.84e-01 | -1.04e-01 | 8.36e-01 |
| REACTOME IONOTROPIC ACTIVITY OF KAINATE RECEPTORS | 9 | 4.87e-01 | 1.34e-01 | 8.40e-01 |
| REACTOME NOTCH1 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 44 | 4.87e-01 | -6.05e-02 | 8.40e-01 |
| REACTOME RHOV GTPASE CYCLE | 36 | 4.89e-01 | 6.67e-02 | 8.40e-01 |
| REACTOME ATORVASTATIN ADME | 9 | 4.89e-01 | 1.33e-01 | 8.40e-01 |
| REACTOME DISEASES ASSOCIATED WITH GLYCOSAMINOGLYCAN METABOLISM | 38 | 4.89e-01 | 6.48e-02 | 8.41e-01 |
| REACTOME PEROXISOMAL LIPID METABOLISM | 28 | 4.91e-01 | -7.52e-02 | 8.42e-01 |
| REACTOME PLATELET HOMEOSTASIS | 85 | 4.91e-01 | 4.32e-02 | 8.42e-01 |
| REACTOME METABOLISM OF STEROIDS | 150 | 4.92e-01 | 3.25e-02 | 8.42e-01 |
| REACTOME BILE ACID AND BILE SALT METABOLISM | 45 | 4.92e-01 | 5.91e-02 | 8.42e-01 |
| REACTOME NF KB IS ACTIVATED AND SIGNALS SURVIVAL | 12 | 4.93e-01 | -1.14e-01 | 8.43e-01 |
| REACTOME LOSS OF FUNCTION OF MECP2 IN RETT SYNDROME | 11 | 4.94e-01 | 1.19e-01 | 8.43e-01 |
| REACTOME ZINC INFLUX INTO CELLS BY THE SLC39 GENE FAMILY | 10 | 4.94e-01 | 1.25e-01 | 8.43e-01 |
| REACTOME EXTRA NUCLEAR ESTROGEN SIGNALING | 74 | 4.95e-01 | -4.59e-02 | 8.43e-01 |
| REACTOME CYTOPROTECTION BY HMOX1 | 59 | 4.95e-01 | -5.13e-02 | 8.43e-01 |
| REACTOME ALPHA DEFENSINS | 6 | 4.97e-01 | 1.60e-01 | 8.44e-01 |
| REACTOME BH3 ONLY PROTEINS ASSOCIATE WITH AND INACTIVATE ANTI APOPTOTIC BCL 2 MEMBERS | 9 | 4.98e-01 | -1.30e-01 | 8.46e-01 |
| REACTOME INLA MEDIATED ENTRY OF LISTERIA MONOCYTOGENES INTO HOST CELLS | 9 | 5.02e-01 | -1.29e-01 | 8.50e-01 |
| REACTOME CYTOSOLIC SENSORS OF PATHOGEN ASSOCIATED DNA | 63 | 5.02e-01 | -4.89e-02 | 8.50e-01 |
| REACTOME VITAMIN B2 RIBOFLAVIN METABOLISM | 7 | 5.02e-01 | 1.47e-01 | 8.50e-01 |
| REACTOME HYALURONAN UPTAKE AND DEGRADATION | 12 | 5.03e-01 | -1.12e-01 | 8.51e-01 |
| REACTOME ACTIVATION OF BAD AND TRANSLOCATION TO MITOCHONDRIA | 15 | 5.06e-01 | -9.92e-02 | 8.52e-01 |
| REACTOME NOTCH HLH TRANSCRIPTION PATHWAY | 24 | 5.06e-01 | 7.84e-02 | 8.52e-01 |
| REACTOME DOWNREGULATION OF ERBB2 SIGNALING | 29 | 5.06e-01 | -7.13e-02 | 8.52e-01 |
| REACTOME NTRK2 ACTIVATES RAC1 | 5 | 5.06e-01 | 1.72e-01 | 8.52e-01 |
| REACTOME DOWNSTREAM SIGNALING OF ACTIVATED FGFR4 | 26 | 5.06e-01 | 7.53e-02 | 8.52e-01 |
| REACTOME ACTIVATED NTRK2 SIGNALS THROUGH CDK5 | 6 | 5.08e-01 | 1.56e-01 | 8.53e-01 |
| REACTOME SPERM MOTILITY AND TAXES | 9 | 5.09e-01 | -1.27e-01 | 8.54e-01 |
| REACTOME MATURATION OF SARS COV 2 NUCLEOPROTEIN | 15 | 5.11e-01 | 9.79e-02 | 8.56e-01 |
| REACTOME REGULATION OF INNATE IMMUNE RESPONSES TO CYTOSOLIC DNA | 15 | 5.12e-01 | -9.78e-02 | 8.56e-01 |
| REACTOME SIGNAL ATTENUATION | 10 | 5.13e-01 | 1.20e-01 | 8.56e-01 |
| REACTOME SYNTHESIS OF GDP MANNOSE | 5 | 5.13e-01 | -1.69e-01 | 8.56e-01 |
| REACTOME ACTIVATED NTRK2 SIGNALS THROUGH RAS | 9 | 5.14e-01 | -1.26e-01 | 8.56e-01 |
| REACTOME TGF BETA RECEPTOR SIGNALING IN EMT EPITHELIAL TO MESENCHYMAL TRANSITION | 16 | 5.14e-01 | -9.42e-02 | 8.56e-01 |
| REACTOME BRANCHED CHAIN AMINO ACID CATABOLISM | 20 | 5.15e-01 | -8.42e-02 | 8.56e-01 |
| REACTOME PURINE RIBONUCLEOSIDE MONOPHOSPHATE BIOSYNTHESIS | 11 | 5.15e-01 | -1.13e-01 | 8.56e-01 |
| REACTOME INTERLEUKIN 1 FAMILY SIGNALING | 146 | 5.15e-01 | -3.12e-02 | 8.56e-01 |
| REACTOME CILIUM ASSEMBLY | 190 | 5.17e-01 | -2.73e-02 | 8.56e-01 |
| REACTOME SYNTHESIS OF PROSTAGLANDINS PG AND THROMBOXANES TX | 15 | 5.17e-01 | 9.66e-02 | 8.56e-01 |
| REACTOME FGFR2 ALTERNATIVE SPLICING | 27 | 5.17e-01 | -7.20e-02 | 8.56e-01 |
| REACTOME PROTEIN REPAIR | 6 | 5.18e-01 | -1.53e-01 | 8.56e-01 |
| REACTOME LOSS OF MECP2 BINDING ABILITY TO THE NCOR SMRT COMPLEX | 5 | 5.19e-01 | 1.67e-01 | 8.56e-01 |
| REACTOME SYNTHESIS OF PE | 13 | 5.20e-01 | -1.03e-01 | 8.56e-01 |
| REACTOME NEGATIVE REGULATION OF FGFR3 SIGNALING | 28 | 5.21e-01 | 7.01e-02 | 8.56e-01 |
| REACTOME LTC4 CYSLTR MEDIATED IL4 PRODUCTION | 6 | 5.23e-01 | 1.51e-01 | 8.56e-01 |
| REACTOME SYNTHESIS OF IP2 IP AND INS IN THE CYTOSOL | 13 | 5.23e-01 | 1.02e-01 | 8.56e-01 |
| REACTOME INITIAL TRIGGERING OF COMPLEMENT | 21 | 5.25e-01 | 8.01e-02 | 8.56e-01 |
| REACTOME RHO GTPASES ACTIVATE PAKS | 19 | 5.25e-01 | 8.42e-02 | 8.56e-01 |
| REACTOME ACTIVATED NTRK2 SIGNALS THROUGH FYN | 7 | 5.26e-01 | 1.39e-01 | 8.56e-01 |
| REACTOME CYTOCHROME C MEDIATED APOPTOTIC RESPONSE | 12 | 5.26e-01 | -1.06e-01 | 8.56e-01 |
| REACTOME REGULATION OF NPAS4 GENE EXPRESSION | 13 | 5.26e-01 | -1.01e-01 | 8.56e-01 |
| REACTOME STING MEDIATED INDUCTION OF HOST IMMUNE RESPONSES | 16 | 5.27e-01 | 9.14e-02 | 8.56e-01 |
| REACTOME BIOLOGICAL OXIDATIONS | 210 | 5.27e-01 | -2.53e-02 | 8.56e-01 |
| REACTOME PHASE II CONJUGATION OF COMPOUNDS | 102 | 5.27e-01 | -3.63e-02 | 8.56e-01 |
| REACTOME SODIUM COUPLED SULPHATE DI AND TRI CARBOXYLATE TRANSPORTERS | 5 | 5.27e-01 | 1.63e-01 | 8.56e-01 |
| REACTOME THROMBOXANE SIGNALLING THROUGH TP RECEPTOR | 24 | 5.27e-01 | -7.46e-02 | 8.56e-01 |
| REACTOME DISASSEMBLY OF THE DESTRUCTION COMPLEX AND RECRUITMENT OF AXIN TO THE MEMBRANE | 30 | 5.27e-01 | 6.67e-02 | 8.56e-01 |
| REACTOME MITOCHONDRIAL FATTY ACID BETA OXIDATION OF UNSATURATED FATTY ACIDS | 6 | 5.27e-01 | 1.49e-01 | 8.56e-01 |
| REACTOME GROWTH HORMONE RECEPTOR SIGNALING | 24 | 5.27e-01 | 7.46e-02 | 8.56e-01 |
| REACTOME UREA CYCLE | 9 | 5.28e-01 | -1.22e-01 | 8.56e-01 |
| REACTOME RHOH GTPASE CYCLE | 37 | 5.29e-01 | -5.98e-02 | 8.56e-01 |
| REACTOME AMPK INHIBITS CHREBP TRANSCRIPTIONAL ACTIVATION ACTIVITY | 8 | 5.29e-01 | 1.28e-01 | 8.56e-01 |
| REACTOME RUNX2 REGULATES BONE DEVELOPMENT | 29 | 5.29e-01 | 6.75e-02 | 8.56e-01 |
| REACTOME DEFECTIVE GALNT3 CAUSES HFTC | 16 | 5.30e-01 | 9.07e-02 | 8.56e-01 |
| REACTOME TRANSPORT OF NUCLEOTIDE SUGARS | 8 | 5.30e-01 | 1.28e-01 | 8.56e-01 |
| REACTOME COPI INDEPENDENT GOLGI TO ER RETROGRADE TRAFFIC | 52 | 5.31e-01 | 5.03e-02 | 8.56e-01 |
| REACTOME ANCHORING OF THE BASAL BODY TO THE PLASMA MEMBRANE | 93 | 5.32e-01 | -3.75e-02 | 8.56e-01 |
| REACTOME MATURATION OF SARS COV 1 SPIKE PROTEIN | 5 | 5.33e-01 | -1.61e-01 | 8.56e-01 |
| REACTOME ADVANCED GLYCOSYLATION ENDPRODUCT RECEPTOR SIGNALING | 13 | 5.33e-01 | 9.98e-02 | 8.56e-01 |
| REACTOME XENOBIOTICS | 22 | 5.33e-01 | 7.67e-02 | 8.56e-01 |
| REACTOME ROBO RECEPTORS BIND AKAP5 | 9 | 5.34e-01 | 1.20e-01 | 8.56e-01 |
| REACTOME AMINO ACID CONJUGATION | 9 | 5.34e-01 | -1.20e-01 | 8.56e-01 |
| REACTOME ELEVATION OF CYTOSOLIC CA2 LEVELS | 16 | 5.34e-01 | 8.97e-02 | 8.56e-01 |
| REACTOME GLUCOSE METABOLISM | 90 | 5.35e-01 | 3.78e-02 | 8.56e-01 |
| REACTOME CALCINEURIN ACTIVATES NFAT | 9 | 5.35e-01 | -1.19e-01 | 8.56e-01 |
| REACTOME NOTCH2 ACTIVATION AND TRANSMISSION OF SIGNAL TO THE NUCLEUS | 22 | 5.37e-01 | -7.61e-02 | 8.56e-01 |
| REACTOME PROLONGED ERK ACTIVATION EVENTS | 14 | 5.37e-01 | 9.53e-02 | 8.56e-01 |
| REACTOME SUMOYLATION | 179 | 5.37e-01 | -2.67e-02 | 8.56e-01 |
| REACTOME SIGNALING BY TGF BETA RECEPTOR COMPLEX IN CANCER | 8 | 5.38e-01 | -1.26e-01 | 8.56e-01 |
| REACTOME NUCLEAR SIGNALING BY ERBB4 | 32 | 5.38e-01 | -6.29e-02 | 8.56e-01 |
| REACTOME EFFECTS OF PIP2 HYDROLYSIS | 26 | 5.38e-01 | 6.97e-02 | 8.56e-01 |
| REACTOME RHO GTPASES ACTIVATE NADPH OXIDASES | 21 | 5.40e-01 | 7.73e-02 | 8.56e-01 |
| REACTOME DEFECTIVE ST3GAL3 CAUSES MCT12 AND EIEE15 | 8 | 5.40e-01 | 1.25e-01 | 8.56e-01 |
| REACTOME FGFR2B LIGAND BINDING AND ACTIVATION | 10 | 5.40e-01 | 1.12e-01 | 8.56e-01 |
| REACTOME LRR FLII INTERACTING PROTEIN 1 LRRFIP1 ACTIVATES TYPE I IFN PRODUCTION | 5 | 5.41e-01 | -1.58e-01 | 8.56e-01 |
| REACTOME PEPTIDE HORMONE METABOLISM | 84 | 5.41e-01 | 3.86e-02 | 8.56e-01 |
| REACTOME E2F ENABLED INHIBITION OF PRE REPLICATION COMPLEX FORMATION | 9 | 5.42e-01 | -1.17e-01 | 8.56e-01 |
| REACTOME HEDGEHOG ON STATE | 85 | 5.43e-01 | -3.82e-02 | 8.56e-01 |
| REACTOME SODIUM PROTON EXCHANGERS | 7 | 5.45e-01 | 1.32e-01 | 8.56e-01 |
| REACTOME RND2 GTPASE CYCLE | 42 | 5.45e-01 | 5.40e-02 | 8.56e-01 |
| REACTOME PI3K EVENTS IN ERBB4 SIGNALING | 10 | 5.45e-01 | -1.11e-01 | 8.56e-01 |
| REACTOME PHYSIOLOGICAL FACTORS | 14 | 5.45e-01 | 9.34e-02 | 8.56e-01 |
| REACTOME PHOSPHOLIPID METABOLISM | 201 | 5.46e-01 | 2.47e-02 | 8.56e-01 |
| REACTOME NEF MEDIATES DOWN MODULATION OF CELL SURFACE RECEPTORS BY RECRUITING THEM TO CLATHRIN ADAPTERS | 20 | 5.46e-01 | 7.80e-02 | 8.56e-01 |
| REACTOME PLATELET ACTIVATION SIGNALING AND AGGREGATION | 250 | 5.47e-01 | -2.21e-02 | 8.56e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY THE AP 2 TFAP2 FAMILY OF TRANSCRIPTION FACTORS | 36 | 5.47e-01 | 5.79e-02 | 8.56e-01 |
| REACTOME SIGNALING BY ERYTHROPOIETIN | 25 | 5.48e-01 | -6.95e-02 | 8.56e-01 |
| REACTOME HIGHLY CALCIUM PERMEABLE NICOTINIC ACETYLCHOLINE RECEPTORS | 9 | 5.48e-01 | -1.16e-01 | 8.56e-01 |
| REACTOME REGULATION OF BACH1 ACTIVITY | 11 | 5.49e-01 | -1.04e-01 | 8.56e-01 |
| REACTOME NR1H2 NR1H3 REGULATE GENE EXPRESSION TO CONTROL BILE ACID HOMEOSTASIS | 9 | 5.49e-01 | 1.15e-01 | 8.56e-01 |
| REACTOME ERBB2 REGULATES CELL MOTILITY | 15 | 5.49e-01 | -8.94e-02 | 8.56e-01 |
| REACTOME RECRUITMENT OF NUMA TO MITOTIC CENTROSOMES | 91 | 5.49e-01 | 3.63e-02 | 8.56e-01 |
| REACTOME SIGNALING BY FGFR3 | 39 | 5.50e-01 | 5.53e-02 | 8.56e-01 |
| REACTOME SARS COV 2 TARGETS PDZ PROTEINS IN CELL CELL JUNCTION | 5 | 5.50e-01 | -1.54e-01 | 8.56e-01 |
| REACTOME SIGNALING BY FGFR4 IN DISEASE | 11 | 5.51e-01 | 1.04e-01 | 8.56e-01 |
| REACTOME DEX H BOX HELICASES ACTIVATE TYPE I IFN AND INFLAMMATORY CYTOKINES PRODUCTION | 7 | 5.51e-01 | -1.30e-01 | 8.56e-01 |
| REACTOME ARMS MEDIATED ACTIVATION | 7 | 5.51e-01 | 1.30e-01 | 8.56e-01 |
| REACTOME SIGNAL REGULATORY PROTEIN FAMILY INTERACTIONS | 16 | 5.52e-01 | 8.59e-02 | 8.57e-01 |
| REACTOME SLBP DEPENDENT PROCESSING OF REPLICATION DEPENDENT HISTONE PRE MRNAS | 11 | 5.53e-01 | -1.03e-01 | 8.57e-01 |
| REACTOME REGULATION OF FZD BY UBIQUITINATION | 21 | 5.55e-01 | -7.45e-02 | 8.57e-01 |
| REACTOME ION CHANNEL TRANSPORT | 172 | 5.55e-01 | 2.61e-02 | 8.57e-01 |
| REACTOME P75NTR NEGATIVELY REGULATES CELL CYCLE VIA SC1 | 6 | 5.55e-01 | 1.39e-01 | 8.57e-01 |
| REACTOME GP1B IX V ACTIVATION SIGNALLING | 11 | 5.55e-01 | 1.03e-01 | 8.57e-01 |
| REACTOME ACTIVATED NTRK2 SIGNALS THROUGH PI3K | 7 | 5.56e-01 | -1.28e-01 | 8.57e-01 |
| REACTOME RELEASE OF HH NP FROM THE SECRETING CELL | 8 | 5.57e-01 | 1.20e-01 | 8.57e-01 |
| REACTOME DIGESTION OF DIETARY CARBOHYDRATE | 6 | 5.57e-01 | 1.38e-01 | 8.57e-01 |
| REACTOME INSULIN RECEPTOR RECYCLING | 29 | 5.57e-01 | 6.30e-02 | 8.57e-01 |
| REACTOME VITAMIN D CALCIFEROL METABOLISM | 12 | 5.59e-01 | -9.75e-02 | 8.58e-01 |
| REACTOME HS GAG DEGRADATION | 19 | 5.59e-01 | -7.75e-02 | 8.58e-01 |
| REACTOME G BETA GAMMA SIGNALLING THROUGH CDC42 | 19 | 5.59e-01 | -7.75e-02 | 8.58e-01 |
| REACTOME A TETRASACCHARIDE LINKER SEQUENCE IS REQUIRED FOR GAG SYNTHESIS | 23 | 5.60e-01 | 7.02e-02 | 8.58e-01 |
| REACTOME PROTON COUPLED MONOCARBOXYLATE TRANSPORT | 6 | 5.60e-01 | -1.37e-01 | 8.58e-01 |
| REACTOME PTK6 EXPRESSION | 5 | 5.61e-01 | -1.50e-01 | 8.58e-01 |
| REACTOME WAX AND PLASMALOGEN BIOSYNTHESIS | 5 | 5.61e-01 | -1.50e-01 | 8.58e-01 |
| REACTOME EGFR TRANSACTIVATION BY GASTRIN | 9 | 5.62e-01 | -1.12e-01 | 8.58e-01 |
| REACTOME CHYLOMICRON CLEARANCE | 5 | 5.63e-01 | 1.49e-01 | 8.59e-01 |
| REACTOME PTK6 REGULATES PROTEINS INVOLVED IN RNA PROCESSING | 5 | 5.64e-01 | -1.49e-01 | 8.59e-01 |
| REACTOME SIGNALING BY CYTOSOLIC FGFR1 FUSION MUTANTS | 18 | 5.64e-01 | 7.85e-02 | 8.59e-01 |
| REACTOME SIGNALING BY FGFR1 | 49 | 5.65e-01 | 4.76e-02 | 8.59e-01 |
| REACTOME GLYCOLYSIS | 70 | 5.65e-01 | 3.98e-02 | 8.59e-01 |
| REACTOME MECP2 REGULATES NEURONAL RECEPTORS AND CHANNELS | 17 | 5.68e-01 | -8.01e-02 | 8.61e-01 |
| REACTOME CREATINE METABOLISM | 9 | 5.68e-01 | 1.10e-01 | 8.61e-01 |
| REACTOME SIGNALING BY PTK6 | 54 | 5.69e-01 | -4.48e-02 | 8.61e-01 |
| REACTOMEMATURATION OF SARS COV 1 NUCLEOPROTEIN | 11 | 5.69e-01 | 9.92e-02 | 8.61e-01 |
| REACTOME SIGNALING BY PDGFRA TRANSMEMBRANE JUXTAMEMBRANE AND KINASE DOMAIN MUTANTS | 12 | 5.70e-01 | -9.47e-02 | 8.61e-01 |
| REACTOME ECM PROTEOGLYCANS | 73 | 5.70e-01 | 3.84e-02 | 8.61e-01 |
| REACTOME RECRUITMENT OF MITOTIC CENTROSOME PROTEINS AND COMPLEXES | 78 | 5.70e-01 | 3.72e-02 | 8.61e-01 |
| REACTOME MET ACTIVATES RAS SIGNALING | 11 | 5.70e-01 | -9.88e-02 | 8.61e-01 |
| REACTOME LIGAND RECEPTOR INTERACTIONS | 8 | 5.71e-01 | 1.16e-01 | 8.62e-01 |
| REACTOME UPTAKE AND ACTIONS OF BACTERIAL TOXINS | 28 | 5.72e-01 | -6.17e-02 | 8.62e-01 |
| REACTOME METABOLISM OF NITRIC OXIDE NOS3 ACTIVATION AND REGULATION | 15 | 5.73e-01 | 8.41e-02 | 8.62e-01 |
| REACTOME ATF6 ATF6 ALPHA ACTIVATES CHAPERONE GENES | 10 | 5.73e-01 | -1.03e-01 | 8.62e-01 |
| REACTOME ORGANIC ANION TRANSPORT | 5 | 5.74e-01 | 1.45e-01 | 8.62e-01 |
| REACTOME ACTIVATION OF RAC1 | 12 | 5.75e-01 | 9.35e-02 | 8.63e-01 |
| REACTOME METABOLISM OF WATER SOLUBLE VITAMINS AND COFACTORS | 122 | 5.77e-01 | 2.93e-02 | 8.64e-01 |
| REACTOME NITRIC OXIDE STIMULATES GUANYLATE CYCLASE | 22 | 5.77e-01 | 6.87e-02 | 8.64e-01 |
| REACTOME POLYMERASE SWITCHING ON THE C STRAND OF THE TELOMERE | 25 | 5.79e-01 | -6.41e-02 | 8.66e-01 |
| REACTOME CDC6 ASSOCIATION WITH THE ORC ORIGIN COMPLEX | 8 | 5.79e-01 | -1.13e-01 | 8.66e-01 |
| REACTOME INTEGRIN SIGNALING | 27 | 5.81e-01 | -6.14e-02 | 8.67e-01 |
| REACTOME ROLE OF LAT2 NTAL LAB ON CALCIUM MOBILIZATION | 16 | 5.81e-01 | -7.97e-02 | 8.67e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF SEVERAL ADDITIONAL CELL DEATH GENES WHOSE SPECIFIC ROLES IN P53 DEPENDENT APOPTOSIS REMAIN UNCERTAIN | 13 | 5.81e-01 | 8.83e-02 | 8.67e-01 |
| REACTOME DEFECTIVE C1GALT1C1 CAUSES TNPS | 16 | 5.82e-01 | 7.95e-02 | 8.67e-01 |
| REACTOME DIGESTION OF DIETARY LIPID | 7 | 5.83e-01 | 1.20e-01 | 8.67e-01 |
| REACTOME RNA POLYMERASE II PRE TRANSCRIPTION EVENTS | 77 | 5.83e-01 | -3.62e-02 | 8.67e-01 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN BCR SIGNALING | 6 | 5.84e-01 | -1.29e-01 | 8.68e-01 |
| REACTOME NOTCH2 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 11 | 5.85e-01 | -9.52e-02 | 8.68e-01 |
| REACTOME FIBRONECTIN MATRIX FORMATION | 6 | 5.86e-01 | -1.28e-01 | 8.68e-01 |
| REACTOME SHC1 EVENTS IN ERBB2 SIGNALING | 22 | 5.86e-01 | -6.71e-02 | 8.68e-01 |
| REACTOME ABORTIVE ELONGATION OF HIV 1 TRANSCRIPT IN THE ABSENCE OF TAT | 23 | 5.87e-01 | 6.55e-02 | 8.68e-01 |
| REACTOME NFE2L2 REGULATES PENTOSE PHOSPHATE PATHWAY GENES | 7 | 5.87e-01 | 1.19e-01 | 8.68e-01 |
| REACTOME IKBA VARIANT LEADS TO EDA ID | 6 | 5.87e-01 | 1.28e-01 | 8.68e-01 |
| REACTOME ORGANIC CATION ANION ZWITTERION TRANSPORT | 15 | 5.88e-01 | 8.08e-02 | 8.68e-01 |
| REACTOME RHOJ GTPASE CYCLE | 51 | 5.88e-01 | 4.38e-02 | 8.68e-01 |
| REACTOME RAB REGULATION OF TRAFFICKING | 110 | 5.89e-01 | 2.98e-02 | 8.68e-01 |
| REACTOME ADHERENS JUNCTIONS INTERACTIONS | 33 | 5.93e-01 | -5.38e-02 | 8.71e-01 |
| REACTOME SUMOYLATION OF DNA REPLICATION PROTEINS | 46 | 5.93e-01 | -4.56e-02 | 8.71e-01 |
| REACTOME SELECTIVE AUTOPHAGY | 79 | 5.94e-01 | -3.47e-02 | 8.71e-01 |
| REACTOME SHC RELATED EVENTS TRIGGERED BY IGF1R | 9 | 5.94e-01 | -1.03e-01 | 8.71e-01 |
| REACTOME SIGNALING BY NTRK3 TRKC | 17 | 5.94e-01 | -7.46e-02 | 8.71e-01 |
| REACTOME DERMATAN SULFATE BIOSYNTHESIS | 10 | 5.95e-01 | 9.71e-02 | 8.71e-01 |
| REACTOME PROTEIN PROTEIN INTERACTIONS AT SYNAPSES | 77 | 5.96e-01 | 3.50e-02 | 8.71e-01 |
| REACTOME IRAK4 DEFICIENCY TLR2 4 | 17 | 5.97e-01 | -7.42e-02 | 8.71e-01 |
| REACTOME GLI PROTEINS BIND PROMOTERS OF HH RESPONSIVE GENES TO PROMOTE TRANSCRIPTION | 7 | 5.97e-01 | 1.15e-01 | 8.71e-01 |
| REACTOME RESOLUTION OF D LOOP STRUCTURES | 33 | 5.97e-01 | -5.32e-02 | 8.71e-01 |
| REACTOME COOPERATION OF PREFOLDIN AND TRIC CCT IN ACTIN AND TUBULIN FOLDING | 32 | 5.98e-01 | -5.38e-02 | 8.71e-01 |
| REACTOME HDL REMODELING | 10 | 5.98e-01 | -9.62e-02 | 8.71e-01 |
| REACTOME GRB2 EVENTS IN ERBB2 SIGNALING | 16 | 5.98e-01 | -7.60e-02 | 8.71e-01 |
| REACTOME SULFIDE OXIDATION TO SULFATE | 6 | 5.99e-01 | 1.24e-01 | 8.71e-01 |
| REACTOME SMALL INTERFERING RNA SIRNA BIOGENESIS | 9 | 5.99e-01 | 1.01e-01 | 8.71e-01 |
| REACTOME SIGNALING BY ERBB2 | 50 | 6.00e-01 | -4.29e-02 | 8.71e-01 |
| REACTOME BIOSYNTHESIS OF EPA DERIVED SPMS | 6 | 6.01e-01 | 1.23e-01 | 8.73e-01 |
| REACTOME SIGNALING BY HIPPO | 19 | 6.03e-01 | -6.89e-02 | 8.73e-01 |
| REACTOME SOS MEDIATED SIGNALLING | 7 | 6.03e-01 | 1.13e-01 | 8.73e-01 |
| REACTOME CARGO TRAFFICKING TO THE PERICILIARY MEMBRANE | 49 | 6.04e-01 | -4.29e-02 | 8.73e-01 |
| REACTOME SUMOYLATION OF TRANSCRIPTION FACTORS | 20 | 6.04e-01 | -6.70e-02 | 8.73e-01 |
| REACTOME RHOG GTPASE CYCLE | 71 | 6.04e-01 | 3.56e-02 | 8.73e-01 |
| REACTOME SIGNALING BY NOTCH1 HD DOMAIN MUTANTS IN CANCER | 15 | 6.05e-01 | 7.71e-02 | 8.74e-01 |
| REACTOME SIGNALING BY LRP5 MUTANTS | 6 | 6.06e-01 | -1.22e-01 | 8.74e-01 |
| REACTOME PLASMA LIPOPROTEIN ASSEMBLY | 19 | 6.06e-01 | 6.83e-02 | 8.74e-01 |
| REACTOME GERM LAYER FORMATION AT GASTRULATION | 17 | 6.07e-01 | -7.20e-02 | 8.74e-01 |
| REACTOME CHOLESTEROL BIOSYNTHESIS | 25 | 6.07e-01 | 5.94e-02 | 8.74e-01 |
| REACTOME SEALING OF THE NUCLEAR ENVELOPE NE BY ESCRT III | 31 | 6.08e-01 | 5.32e-02 | 8.74e-01 |
| REACTOME DISEASES OF IMMUNE SYSTEM | 29 | 6.09e-01 | -5.49e-02 | 8.75e-01 |
| REACTOME GLUCAGON SIGNALING IN METABOLIC REGULATION | 32 | 6.10e-01 | 5.21e-02 | 8.76e-01 |
| REACTOME DISINHIBITION OF SNARE FORMATION | 5 | 6.11e-01 | -1.31e-01 | 8.76e-01 |
| REACTOME CITRIC ACID CYCLE TCA CYCLE | 21 | 6.12e-01 | -6.40e-02 | 8.76e-01 |
| REACTOME MATURATION OF SARS COV 2 SPIKE PROTEIN | 35 | 6.13e-01 | 4.94e-02 | 8.77e-01 |
| REACTOME SIGNALING BY MAPK MUTANTS | 6 | 6.15e-01 | 1.18e-01 | 8.79e-01 |
| REACTOME TNFR1 MEDIATED CERAMIDE PRODUCTION | 6 | 6.16e-01 | -1.18e-01 | 8.79e-01 |
| REACTOME SPHINGOLIPID DE NOVO BIOSYNTHESIS | 45 | 6.16e-01 | 4.32e-02 | 8.79e-01 |
| REACTOME GLYCOGEN SYNTHESIS | 13 | 6.16e-01 | -8.03e-02 | 8.79e-01 |
| REACTOME DOWNREGULATION OF SMAD2 3 SMAD4 TRANSCRIPTIONAL ACTIVITY | 29 | 6.17e-01 | -5.36e-02 | 8.79e-01 |
| REACTOME RESPONSE OF MTB TO PHAGOCYTOSIS | 22 | 6.18e-01 | -6.15e-02 | 8.79e-01 |
| REACTOME INTRA GOLGI AND RETROGRADE GOLGI TO ER TRAFFIC | 198 | 6.18e-01 | -2.05e-02 | 8.79e-01 |
| REACTOME CELL CELL JUNCTION ORGANIZATION | 64 | 6.19e-01 | -3.60e-02 | 8.79e-01 |
| REACTOME PROPIONYL COA CATABOLISM | 5 | 6.19e-01 | -1.28e-01 | 8.79e-01 |
| REACTOME GLYCEROPHOSPHOLIPID CATABOLISM | 7 | 6.20e-01 | -1.08e-01 | 8.79e-01 |
| REACTOME NECTIN NECL TRANS HETERODIMERIZATION | 7 | 6.21e-01 | -1.08e-01 | 8.79e-01 |
| REACTOME ABACAVIR TRANSMEMBRANE TRANSPORT | 5 | 6.21e-01 | 1.28e-01 | 8.79e-01 |
| REACTOME INOSITOL PHOSPHATE METABOLISM | 45 | 6.21e-01 | 4.26e-02 | 8.79e-01 |
| REACTOME SEMA4D IN SEMAPHORIN SIGNALING | 24 | 6.22e-01 | 5.81e-02 | 8.80e-01 |
| REACTOME GAMMA CARBOXYLATION HYPUSINE FORMATION AND ARYLSULFATASE ACTIVATION | 34 | 6.23e-01 | -4.88e-02 | 8.80e-01 |
| REACTOME NUCLEOTIDE CATABOLISM | 35 | 6.24e-01 | -4.79e-02 | 8.80e-01 |
| REACTOME G PROTEIN BETA GAMMA SIGNALLING | 30 | 6.24e-01 | 5.17e-02 | 8.80e-01 |
| REACTOME G ALPHA Z SIGNALLING EVENTS | 48 | 6.24e-01 | -4.08e-02 | 8.80e-01 |
| REACTOME RUNX1 REGULATES ESTROGEN RECEPTOR MEDIATED TRANSCRIPTION | 6 | 6.25e-01 | -1.15e-01 | 8.80e-01 |
| REACTOME ALPHA OXIDATION OF PHYTANATE | 6 | 6.26e-01 | -1.15e-01 | 8.81e-01 |
| REACTOME SPHINGOLIPID METABOLISM | 84 | 6.27e-01 | 3.07e-02 | 8.81e-01 |
| REACTOME ACTIVATION OF KAINATE RECEPTORS UPON GLUTAMATE BINDING | 29 | 6.28e-01 | 5.20e-02 | 8.82e-01 |
| REACTOME FCGR ACTIVATION | 11 | 6.31e-01 | -8.38e-02 | 8.85e-01 |
| REACTOME CASPASE MEDIATED CLEAVAGE OF CYTOSKELETAL PROTEINS | 12 | 6.33e-01 | 7.97e-02 | 8.86e-01 |
| REACTOME TETRAHYDROBIOPTERIN BH4 SYNTHESIS RECYCLING SALVAGE AND REGULATION | 10 | 6.34e-01 | -8.71e-02 | 8.86e-01 |
| REACTOME RAF ACTIVATION | 33 | 6.34e-01 | 4.80e-02 | 8.86e-01 |
| REACTOME ERK MAPK TARGETS | 20 | 6.34e-01 | 6.15e-02 | 8.86e-01 |
| REACTOME HIGHLY CALCIUM PERMEABLE POSTSYNAPTIC NICOTINIC ACETYLCHOLINE RECEPTORS | 11 | 6.35e-01 | -8.27e-02 | 8.87e-01 |
| REACTOME ACTIVATION OF TRKA RECEPTORS | 6 | 6.36e-01 | 1.12e-01 | 8.88e-01 |
| REACTOME SYNDECAN INTERACTIONS | 26 | 6.36e-01 | -5.36e-02 | 8.88e-01 |
| REACTOME FORMATION OF SENESCENCE ASSOCIATED HETEROCHROMATIN FOCI SAHF | 17 | 6.38e-01 | 6.60e-02 | 8.88e-01 |
| REACTOME EPHB MEDIATED FORWARD SIGNALING | 41 | 6.38e-01 | -4.25e-02 | 8.88e-01 |
| REACTOME SIGNALING BY MODERATE KINASE ACTIVITY BRAF MUTANTS | 43 | 6.38e-01 | -4.14e-02 | 8.88e-01 |
| REACTOME REGULATION OF LIPID METABOLISM BY PPARALPHA | 115 | 6.40e-01 | 2.52e-02 | 8.88e-01 |
| REACTOME ACYL CHAIN REMODELLING OF PE | 29 | 6.40e-01 | -5.02e-02 | 8.88e-01 |
| REACTOME ABERRANT REGULATION OF MITOTIC G1 S TRANSITION IN CANCER DUE TO RB1 DEFECTS | 17 | 6.40e-01 | -6.55e-02 | 8.88e-01 |
| REACTOME INTERFERON GAMMA SIGNALING | 88 | 6.40e-01 | -2.88e-02 | 8.88e-01 |
| REACTOME ACTIVATION OF NIMA KINASES NEK9 NEK6 NEK7 | 7 | 6.43e-01 | -1.01e-01 | 8.90e-01 |
| REACTOME SYNTHESIS OF IP3 AND IP4 IN THE CYTOSOL | 25 | 6.44e-01 | 5.35e-02 | 8.90e-01 |
| REACTOME TRIGLYCERIDE CATABOLISM | 23 | 6.44e-01 | 5.57e-02 | 8.90e-01 |
| REACTOME CELL CELL COMMUNICATION | 126 | 6.44e-01 | 2.38e-02 | 8.90e-01 |
| REACTOME INTERCONVERSION OF NUCLEOTIDE DI AND TRIPHOSPHATES | 28 | 6.45e-01 | 5.03e-02 | 8.90e-01 |
| REACTOME SARS COV 1 TARGETS HOST INTRACELLULAR SIGNALLING AND REGULATORY PATHWAYS | 16 | 6.45e-01 | -6.66e-02 | 8.90e-01 |
| REACTOME NOSTRIN MEDIATED ENOS TRAFFICKING | 5 | 6.46e-01 | 1.19e-01 | 8.90e-01 |
| REACTOME RHOBTB2 GTPASE CYCLE | 22 | 6.47e-01 | 5.63e-02 | 8.92e-01 |
| REACTOME SIGNALING BY MST1 | 5 | 6.50e-01 | 1.17e-01 | 8.94e-01 |
| REACTOME ENOS ACTIVATION | 11 | 6.51e-01 | 7.89e-02 | 8.94e-01 |
| REACTOME VLDL CLEARANCE | 6 | 6.51e-01 | -1.07e-01 | 8.94e-01 |
| REACTOME SIGNALING BY FGFR2 IIIA TM | 19 | 6.54e-01 | -5.95e-02 | 8.96e-01 |
| REACTOME CD163 MEDIATING AN ANTI INFLAMMATORY RESPONSE | 9 | 6.54e-01 | -8.62e-02 | 8.96e-01 |
| REACTOME BETA OXIDATION OF DECANOYL COA TO OCTANOYL COA COA | 6 | 6.55e-01 | -1.05e-01 | 8.96e-01 |
| REACTOME HS GAG BIOSYNTHESIS | 28 | 6.55e-01 | 4.88e-02 | 8.96e-01 |
| REACTOME BIOSYNTHESIS OF MARESIN LIKE SPMS | 6 | 6.55e-01 | 1.05e-01 | 8.96e-01 |
| REACTOME NON INTEGRIN MEMBRANE ECM INTERACTIONS | 55 | 6.55e-01 | 3.48e-02 | 8.96e-01 |
| REACTOME IL 6 TYPE CYTOKINE RECEPTOR LIGAND INTERACTIONS | 17 | 6.56e-01 | 6.23e-02 | 8.96e-01 |
| REACTOME SUMOYLATION OF DNA DAMAGE RESPONSE AND REPAIR PROTEINS | 74 | 6.57e-01 | -2.99e-02 | 8.96e-01 |
| REACTOME STIMULI SENSING CHANNELS | 100 | 6.58e-01 | 2.56e-02 | 8.96e-01 |
| REACTOME METAL ION SLC TRANSPORTERS | 23 | 6.58e-01 | -5.33e-02 | 8.96e-01 |
| REACTOME EICOSANOID LIGAND BINDING RECEPTORS | 14 | 6.59e-01 | -6.81e-02 | 8.96e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION OF PLURIPOTENT STEM CELLS | 29 | 6.59e-01 | 4.73e-02 | 8.96e-01 |
| REACTOME DOPAMINE RECEPTORS | 5 | 6.60e-01 | 1.14e-01 | 8.96e-01 |
| REACTOME LYSINE CATABOLISM | 12 | 6.62e-01 | -7.30e-02 | 8.96e-01 |
| REACTOME RHOD GTPASE CYCLE | 49 | 6.62e-01 | 3.61e-02 | 8.96e-01 |
| REACTOME NEGATIVE REGULATION OF TCF DEPENDENT SIGNALING BY WNT LIGAND ANTAGONISTS | 15 | 6.62e-01 | 6.51e-02 | 8.96e-01 |
| REACTOME APOPTOTIC EXECUTION PHASE | 49 | 6.63e-01 | -3.60e-02 | 8.96e-01 |
| REACTOME SYNTHESIS OF PI | 5 | 6.64e-01 | 1.12e-01 | 8.96e-01 |
| REACTOME PI METABOLISM | 79 | 6.64e-01 | 2.82e-02 | 8.96e-01 |
| REACTOME NEGATIVE FEEDBACK REGULATION OF MAPK PATHWAY | 6 | 6.65e-01 | 1.02e-01 | 8.96e-01 |
| REACTOME ACYL CHAIN REMODELLING OF PS | 22 | 6.65e-01 | -5.33e-02 | 8.96e-01 |
| REACTOME EARLY SARS COV 2 INFECTION EVENTS | 34 | 6.65e-01 | -4.29e-02 | 8.96e-01 |
| REACTOME TRIF MEDIATED PROGRAMMED CELL DEATH | 9 | 6.66e-01 | -8.30e-02 | 8.96e-01 |
| REACTOME KILLING MECHANISMS | 11 | 6.67e-01 | 7.50e-02 | 8.96e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF CELL DEATH GENES | 43 | 6.67e-01 | 3.80e-02 | 8.96e-01 |
| REACTOME CHONDROITIN SULFATE BIOSYNTHESIS | 18 | 6.67e-01 | 5.86e-02 | 8.96e-01 |
| REACTOME FORMATION OF LATERAL PLATE MESODERM | 5 | 6.68e-01 | -1.11e-01 | 8.96e-01 |
| REACTOME ACYL CHAIN REMODELING OF CL | 5 | 6.68e-01 | -1.11e-01 | 8.96e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY VENTX | 41 | 6.68e-01 | -3.87e-02 | 8.96e-01 |
| REACTOME REGULATION OF RUNX1 EXPRESSION AND ACTIVITY | 17 | 6.68e-01 | -6.00e-02 | 8.96e-01 |
| REACTOME DEFECTIVE B4GALT7 CAUSES EDS PROGEROID TYPE | 17 | 6.71e-01 | 5.95e-02 | 8.98e-01 |
| REACTOME NADE MODULATES DEATH SIGNALLING | 5 | 6.72e-01 | 1.09e-01 | 8.99e-01 |
| REACTOME NUCLEOTIDE BIOSYNTHESIS | 14 | 6.74e-01 | -6.50e-02 | 9.01e-01 |
| REACTOME N GLYCAN TRIMMING IN THE ER AND CALNEXIN CALRETICULIN CYCLE | 35 | 6.75e-01 | -4.10e-02 | 9.01e-01 |
| REACTOME SIGNALING BY NTRK2 TRKB | 25 | 6.76e-01 | -4.83e-02 | 9.01e-01 |
| REACTOME MOLECULES ASSOCIATED WITH ELASTIC FIBRES | 37 | 6.79e-01 | 3.93e-02 | 9.01e-01 |
| REACTOME RET SIGNALING | 40 | 6.79e-01 | 3.78e-02 | 9.01e-01 |
| REACTOME VLDLR INTERNALISATION AND DEGRADATION | 16 | 6.79e-01 | -5.97e-02 | 9.01e-01 |
| REACTOME PEXOPHAGY | 11 | 6.80e-01 | -7.19e-02 | 9.01e-01 |
| REACTOME PROCESSING OF SMDT1 | 16 | 6.80e-01 | -5.95e-02 | 9.01e-01 |
| REACTOME DEFECTIVE CHST14 CAUSES EDS MUSCULOCONTRACTURAL TYPE | 7 | 6.80e-01 | 8.99e-02 | 9.01e-01 |
| REACTOME GLYCEROPHOSPHOLIPID BIOSYNTHESIS | 123 | 6.81e-01 | 2.14e-02 | 9.01e-01 |
| REACTOME TELOMERE C STRAND LAGGING STRAND SYNTHESIS | 33 | 6.82e-01 | -4.13e-02 | 9.01e-01 |
| REACTOME SYNTHESIS OF UDP N ACETYL GLUCOSAMINE | 7 | 6.82e-01 | 8.95e-02 | 9.01e-01 |
| REACTOME NETRIN MEDIATED REPULSION SIGNALS | 8 | 6.82e-01 | -8.37e-02 | 9.01e-01 |
| REACTOME DEFECTIVE CHST6 CAUSES MCDC1 | 8 | 6.82e-01 | 8.35e-02 | 9.01e-01 |
| REACTOME MHC CLASS II ANTIGEN PRESENTATION | 121 | 6.82e-01 | 2.15e-02 | 9.01e-01 |
| REACTOME EXTENSION OF TELOMERES | 49 | 6.83e-01 | -3.37e-02 | 9.01e-01 |
| REACTOME SIGNALING BY WNT IN CANCER | 32 | 6.84e-01 | 4.16e-02 | 9.01e-01 |
| REACTOME BETA OXIDATION OF PRISTANOYL COA | 9 | 6.84e-01 | 7.84e-02 | 9.01e-01 |
| REACTOME MET ACTIVATES RAP1 AND RAC1 | 11 | 6.84e-01 | -7.09e-02 | 9.01e-01 |
| REACTOME FACTORS INVOLVED IN MEGAKARYOCYTE DEVELOPMENT AND PLATELET PRODUCTION | 160 | 6.85e-01 | -1.86e-02 | 9.01e-01 |
| REACTOME GLUTAMATE NEUROTRANSMITTER RELEASE CYCLE | 24 | 6.85e-01 | 4.78e-02 | 9.01e-01 |
| REACTOME FOXO MEDIATED TRANSCRIPTION OF CELL DEATH GENES | 15 | 6.86e-01 | -6.02e-02 | 9.01e-01 |
| REACTOME CREB PHOSPHORYLATION | 6 | 6.87e-01 | 9.50e-02 | 9.01e-01 |
| REACTOME ERYTHROPOIETIN ACTIVATES RAS | 14 | 6.87e-01 | -6.22e-02 | 9.01e-01 |
| REACTOME RHO GTPASES ACTIVATE CIT | 19 | 6.88e-01 | 5.33e-02 | 9.01e-01 |
| REACTOME FICOLINS BIND TO REPETITIVE CARBOHYDRATE STRUCTURES ON THE TARGET CELL SURFACE | 5 | 6.88e-01 | 1.04e-01 | 9.01e-01 |
| REACTOME RECEPTOR MEDIATED MITOPHAGY | 10 | 6.89e-01 | 7.32e-02 | 9.01e-01 |
| REACTOME RUNX3 REGULATES CDKN1A TRANSCRIPTION | 7 | 6.89e-01 | -8.74e-02 | 9.01e-01 |
| REACTOME SEMA3A PAK DEPENDENT AXON REPULSION | 14 | 6.91e-01 | -6.14e-02 | 9.02e-01 |
| REACTOME INTERLEUKIN 1 PROCESSING | 9 | 6.91e-01 | -7.66e-02 | 9.02e-01 |
| REACTOME STAT3 NUCLEAR EVENTS DOWNSTREAM OF ALK SIGNALING | 9 | 6.92e-01 | -7.64e-02 | 9.03e-01 |
| REACTOME THE ROLE OF NEF IN HIV 1 REPLICATION AND DISEASE PATHOGENESIS | 27 | 6.93e-01 | 4.39e-02 | 9.04e-01 |
| REACTOME CS DS DEGRADATION | 12 | 6.95e-01 | -6.54e-02 | 9.04e-01 |
| REACTOME SYNTHESIS OF 12 EICOSATETRAENOIC ACID DERIVATIVES | 7 | 6.95e-01 | 8.55e-02 | 9.04e-01 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN DIFFERENTIATION OF KERATINOCYTES | 8 | 6.96e-01 | 7.99e-02 | 9.04e-01 |
| REACTOME PHASE 1 INACTIVATION OF FAST NA CHANNELS | 6 | 6.96e-01 | 9.22e-02 | 9.04e-01 |
| REACTOME PROLACTIN RECEPTOR SIGNALING | 15 | 6.96e-01 | 5.83e-02 | 9.04e-01 |
| REACTOME RAC2 GTPASE CYCLE | 81 | 6.97e-01 | 2.50e-02 | 9.05e-01 |
| REACTOME NR1H2 NR1H3 REGULATE GENE EXPRESSION LINKED TO TRIGLYCERIDE LIPOLYSIS IN ADIPOSE | 5 | 6.98e-01 | 1.00e-01 | 9.05e-01 |
| REACTOME ACTIVATED NTRK3 SIGNALS THROUGH RAS | 8 | 6.99e-01 | -7.88e-02 | 9.06e-01 |
| REACTOME REGULATION OF PTEN GENE TRANSCRIPTION | 59 | 7.00e-01 | 2.90e-02 | 9.06e-01 |
| REACTOME SYNTHESIS OF PIPS AT THE GOLGI MEMBRANE | 17 | 7.01e-01 | -5.38e-02 | 9.06e-01 |
| REACTOME SEMA4D INDUCED CELL MIGRATION AND GROWTH CONE COLLAPSE | 20 | 7.01e-01 | 4.96e-02 | 9.06e-01 |
| REACTOME METHIONINE SALVAGE PATHWAY | 6 | 7.01e-01 | 9.04e-02 | 9.06e-01 |
| REACTOME SIGNALING BY FLT3 FUSION PROTEINS | 19 | 7.03e-01 | -5.06e-02 | 9.07e-01 |
| REACTOME RRNA PROCESSING IN THE MITOCHONDRION | 9 | 7.04e-01 | 7.32e-02 | 9.08e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF GENES INVOLVED IN G1 CELL CYCLE ARREST | 14 | 7.05e-01 | 5.84e-02 | 9.08e-01 |
| REACTOME PLASMA LIPOPROTEIN REMODELING | 33 | 7.05e-01 | -3.80e-02 | 9.08e-01 |
| REACTOME ACTIVATED NTRK2 SIGNALS THROUGH FRS2 AND FRS3 | 11 | 7.05e-01 | -6.58e-02 | 9.08e-01 |
| REACTOME LATE SARS COV 2 INFECTION EVENTS | 67 | 7.09e-01 | 2.64e-02 | 9.10e-01 |
| REACTOME G BETA GAMMA SIGNALLING THROUGH PI3KGAMMA | 25 | 7.09e-01 | 4.31e-02 | 9.10e-01 |
| REACTOME EPH EPHRIN SIGNALING | 90 | 7.10e-01 | 2.27e-02 | 9.10e-01 |
| REACTOME TERMINAL PATHWAY OF COMPLEMENT | 8 | 7.10e-01 | 7.59e-02 | 9.10e-01 |
| REACTOME DEATH RECEPTOR SIGNALING | 143 | 7.11e-01 | 1.80e-02 | 9.10e-01 |
| REACTOME CHREBP ACTIVATES METABOLIC GENE EXPRESSION | 8 | 7.11e-01 | 7.57e-02 | 9.10e-01 |
| REACTOME ACTIVATED NOTCH1 TRANSMITS SIGNAL TO THE NUCLEUS | 30 | 7.12e-01 | 3.89e-02 | 9.11e-01 |
| REACTOME SIGNALING BY FGFR | 85 | 7.13e-01 | 2.30e-02 | 9.11e-01 |
| REACTOME TRAFFICKING AND PROCESSING OF ENDOSOMAL TLR | 11 | 7.14e-01 | -6.39e-02 | 9.11e-01 |
| REACTOME PP2A MEDIATED DEPHOSPHORYLATION OF KEY METABOLIC FACTORS | 6 | 7.15e-01 | 8.62e-02 | 9.11e-01 |
| REACTOME OPSINS | 7 | 7.15e-01 | 7.97e-02 | 9.11e-01 |
| REACTOME TRANSCRIPTIONAL ACTIVATION OF MITOCHONDRIAL BIOGENESIS | 52 | 7.15e-01 | -2.93e-02 | 9.11e-01 |
| REACTOME NEUROTRANSMITTER CLEARANCE | 9 | 7.15e-01 | 7.03e-02 | 9.11e-01 |
| REACTOME HUR ELAVL1 BINDS AND STABILIZES MRNA | 8 | 7.18e-01 | 7.38e-02 | 9.13e-01 |
| REACTOME INTRINSIC PATHWAY FOR APOPTOSIS | 54 | 7.18e-01 | -2.84e-02 | 9.13e-01 |
| REACTOME RUNX3 REGULATES IMMUNE RESPONSE AND CELL MIGRATION | 6 | 7.18e-01 | -8.51e-02 | 9.13e-01 |
| REACTOME RHOBTB GTPASE CYCLE | 34 | 7.21e-01 | 3.54e-02 | 9.13e-01 |
| REACTOME NEGATIVE REGULATION OF NMDA RECEPTOR MEDIATED NEURONAL TRANSMISSION | 20 | 7.22e-01 | -4.59e-02 | 9.13e-01 |
| REACTOME FORMATION OF AXIAL MESODERM | 14 | 7.23e-01 | -5.48e-02 | 9.13e-01 |
| REACTOME E2F MEDIATED REGULATION OF DNA REPLICATION | 20 | 7.23e-01 | -4.59e-02 | 9.13e-01 |
| REACTOME ERKS ARE INACTIVATED | 13 | 7.23e-01 | 5.68e-02 | 9.13e-01 |
| REACTOME P130CAS LINKAGE TO MAPK SIGNALING FOR INTEGRINS | 15 | 7.23e-01 | -5.29e-02 | 9.13e-01 |
| REACTOME TRAF6 MEDIATED NF KB ACTIVATION | 24 | 7.23e-01 | -4.18e-02 | 9.13e-01 |
| REACTOME GLUTAMATE AND GLUTAMINE METABOLISM | 13 | 7.23e-01 | -5.67e-02 | 9.13e-01 |
| REACTOME INTRACELLULAR SIGNALING BY SECOND MESSENGERS | 299 | 7.23e-01 | 1.19e-02 | 9.13e-01 |
| REACTOME INTERLEUKIN RECEPTOR SHC SIGNALING | 24 | 7.25e-01 | 4.14e-02 | 9.15e-01 |
| REACTOME GLUTATHIONE SYNTHESIS AND RECYCLING | 12 | 7.27e-01 | 5.82e-02 | 9.16e-01 |
| REACTOME DEFECTIVE RIPK1 MEDIATED REGULATED NECROSIS | 7 | 7.28e-01 | -7.60e-02 | 9.16e-01 |
| REACTOME REGULATION OF TP53 EXPRESSION AND DEGRADATION | 37 | 7.28e-01 | -3.30e-02 | 9.17e-01 |
| REACTOME CYTOSOLIC TRNA AMINOACYLATION | 22 | 7.30e-01 | -4.26e-02 | 9.17e-01 |
| REACTOME RESOLUTION OF ABASIC SITES AP SITES | 38 | 7.30e-01 | 3.23e-02 | 9.17e-01 |
| REACTOME VESICLE MEDIATED TRANSPORT | 642 | 7.33e-01 | -7.88e-03 | 9.20e-01 |
| REACTOME ENERGY DEPENDENT REGULATION OF MTOR BY LKB1 AMPK | 28 | 7.34e-01 | 3.71e-02 | 9.21e-01 |
| REACTOME TIGHT JUNCTION INTERACTIONS | 29 | 7.36e-01 | -3.62e-02 | 9.22e-01 |
| REACTOME CYTOSOLIC IRON SULFUR CLUSTER ASSEMBLY | 12 | 7.37e-01 | 5.59e-02 | 9.23e-01 |
| REACTOME CREATION OF C4 AND C2 ACTIVATORS | 14 | 7.37e-01 | -5.18e-02 | 9.23e-01 |
| REACTOME DEPOLYMERISATION OF THE NUCLEAR LAMINA | 14 | 7.40e-01 | -5.12e-02 | 9.26e-01 |
| REACTOME SIGNALING BY NODAL | 20 | 7.42e-01 | 4.25e-02 | 9.27e-01 |
| REACTOME COSTIMULATION BY THE CD28 FAMILY | 64 | 7.42e-01 | -2.38e-02 | 9.27e-01 |
| REACTOME CYTOCHROME P450 ARRANGED BY SUBSTRATE TYPE | 63 | 7.43e-01 | -2.38e-02 | 9.27e-01 |
| REACTOME PHASE I FUNCTIONALIZATION OF COMPOUNDS | 101 | 7.44e-01 | -1.88e-02 | 9.27e-01 |
| REACTOME INTERLEUKIN 9 SIGNALING | 7 | 7.45e-01 | -7.09e-02 | 9.27e-01 |
| REACTOME BASIGIN INTERACTIONS | 24 | 7.47e-01 | -3.81e-02 | 9.27e-01 |
| REACTOME TRYPTOPHAN CATABOLISM | 14 | 7.47e-01 | 4.98e-02 | 9.27e-01 |
| REACTOME NEGATIVE REGULATION OF MET ACTIVITY | 20 | 7.47e-01 | -4.17e-02 | 9.27e-01 |
| REACTOME ERYTHROPOIETIN ACTIVATES PHOSPHOINOSITIDE 3 KINASE PI3K | 12 | 7.48e-01 | 5.36e-02 | 9.27e-01 |
| REACTOME ION HOMEOSTASIS | 52 | 7.49e-01 | 2.56e-02 | 9.27e-01 |
| REACTOME O GLYCOSYLATION OF TSR DOMAIN CONTAINING PROTEINS | 38 | 7.50e-01 | 2.99e-02 | 9.27e-01 |
| REACTOME NEF MEDIATED DOWNREGULATION OF MHC CLASS I COMPLEX CELL SURFACE EXPRESSION | 9 | 7.50e-01 | 6.12e-02 | 9.27e-01 |
| REACTOME TRANSPORT OF MATURE MRNAS DERIVED FROM INTRONLESS TRANSCRIPTS | 43 | 7.50e-01 | -2.80e-02 | 9.27e-01 |
| REACTOME BETA OXIDATION OF OCTANOYL COA TO HEXANOYL COA | 5 | 7.51e-01 | -8.20e-02 | 9.27e-01 |
| REACTOME NEGATIVE REGULATION OF MAPK PATHWAY | 41 | 7.51e-01 | -2.87e-02 | 9.27e-01 |
| REACTOME VITAMINS | 6 | 7.52e-01 | -7.46e-02 | 9.27e-01 |
| REACTOME ACTIVATION OF RAS IN B CELLS | 5 | 7.52e-01 | -8.18e-02 | 9.27e-01 |
| REACTOME CONSTITUTIVE SIGNALING BY OVEREXPRESSED ERBB2 | 11 | 7.52e-01 | -5.50e-02 | 9.27e-01 |
| REACTOME NRCAM INTERACTIONS | 6 | 7.52e-01 | 7.44e-02 | 9.27e-01 |
| REACTOME INTRA GOLGI TRAFFIC | 43 | 7.53e-01 | 2.77e-02 | 9.27e-01 |
| REACTOME LISTERIA MONOCYTOGENES ENTRY INTO HOST CELLS | 19 | 7.54e-01 | -4.16e-02 | 9.27e-01 |
| REACTOME NEGATIVE REGULATION OF FGFR4 SIGNALING | 30 | 7.54e-01 | 3.31e-02 | 9.27e-01 |
| REACTOME SYNTHESIS SECRETION AND DEACYLATION OF GHRELIN | 19 | 7.56e-01 | -4.12e-02 | 9.28e-01 |
| REACTOME SIGNALING BY BRAF AND RAF1 FUSIONS | 63 | 7.56e-01 | 2.26e-02 | 9.28e-01 |
| REACTOME CA2 ACTIVATED K CHANNELS | 9 | 7.57e-01 | -5.96e-02 | 9.28e-01 |
| REACTOME SUMO IS CONJUGATED TO E1 UBA2 SAE1 | 5 | 7.57e-01 | -7.99e-02 | 9.28e-01 |
| REACTOME CHYLOMICRON REMODELING | 10 | 7.59e-01 | 5.60e-02 | 9.29e-01 |
| REACTOME BIOSYNTHESIS OF MARESINS | 8 | 7.60e-01 | 6.24e-02 | 9.29e-01 |
| REACTOME PROCESSING AND ACTIVATION OF SUMO | 10 | 7.60e-01 | -5.57e-02 | 9.29e-01 |
| REACTOME REGULATION OF SIGNALING BY NODAL | 9 | 7.61e-01 | -5.86e-02 | 9.29e-01 |
| REACTOME HEME DEGRADATION | 15 | 7.61e-01 | -4.54e-02 | 9.29e-01 |
| REACTOME SYNAPTIC ADHESION LIKE MOLECULES | 19 | 7.62e-01 | 4.02e-02 | 9.29e-01 |
| REACTOME CYP2E1 REACTIONS | 10 | 7.62e-01 | 5.52e-02 | 9.29e-01 |
| REACTOME SEMA4D MEDIATED INHIBITION OF CELL ATTACHMENT AND MIGRATION | 8 | 7.63e-01 | 6.16e-02 | 9.29e-01 |
| REACTOME SIGNALING BY PDGF | 57 | 7.63e-01 | 2.31e-02 | 9.29e-01 |
| REACTOME ATF6 ATF6 ALPHA ACTIVATES CHAPERONES | 11 | 7.63e-01 | -5.25e-02 | 9.29e-01 |
| REACTOME ION TRANSPORT BY P TYPE ATPASES | 51 | 7.64e-01 | 2.43e-02 | 9.29e-01 |
| REACTOME MET RECEPTOR RECYCLING | 10 | 7.64e-01 | -5.48e-02 | 9.29e-01 |
| REACTOME REGULATION OF PTEN MRNA TRANSLATION | 9 | 7.65e-01 | 5.76e-02 | 9.29e-01 |
| REACTOME PHASE 0 RAPID DEPOLARISATION | 31 | 7.69e-01 | 3.05e-02 | 9.31e-01 |
| REACTOME SIGNALING BY RECEPTOR TYROSINE KINASES | 507 | 7.69e-01 | -7.63e-03 | 9.31e-01 |
| REACTOME WNT MEDIATED ACTIVATION OF DVL | 8 | 7.69e-01 | -6.00e-02 | 9.31e-01 |
| REACTOME NUCLEAR RECEPTOR TRANSCRIPTION PATHWAY | 51 | 7.69e-01 | 2.37e-02 | 9.31e-01 |
| REACTOME DEFECTS IN BIOTIN BTN METABOLISM | 8 | 7.70e-01 | -5.98e-02 | 9.31e-01 |
| REACTOME POLB DEPENDENT LONG PATCH BASE EXCISION REPAIR | 8 | 7.70e-01 | -5.97e-02 | 9.31e-01 |
| REACTOME RESPONSE OF EIF2AK1 HRI TO HEME DEFICIENCY | 14 | 7.72e-01 | -4.48e-02 | 9.32e-01 |
| REACTOME COHESIN LOADING ONTO CHROMATIN | 8 | 7.73e-01 | -5.90e-02 | 9.32e-01 |
| REACTOME NUCLEOTIDE SALVAGE | 21 | 7.73e-01 | -3.63e-02 | 9.32e-01 |
| REACTOME MAPK1 ERK2 ACTIVATION | 9 | 7.74e-01 | 5.54e-02 | 9.32e-01 |
| REACTOME DISEASES OF MITOTIC CELL CYCLE | 37 | 7.74e-01 | -2.72e-02 | 9.32e-01 |
| REACTOME DARPP 32 EVENTS | 24 | 7.74e-01 | -3.38e-02 | 9.32e-01 |
| REACTOME FORMATION OF RNA POL II ELONGATION COMPLEX | 57 | 7.75e-01 | 2.19e-02 | 9.32e-01 |
| REACTOME TRANSLATION OF SARS COV 2 STRUCTURAL PROTEINS | 55 | 7.76e-01 | 2.22e-02 | 9.32e-01 |
| REACTOME RHO GTPASES ACTIVATE ROCKS | 19 | 7.76e-01 | 3.77e-02 | 9.32e-01 |
| REACTOME DEFECTS IN VITAMIN AND COFACTOR METABOLISM | 21 | 7.76e-01 | -3.58e-02 | 9.32e-01 |
| REACTOME INSULIN PROCESSING | 24 | 7.77e-01 | 3.34e-02 | 9.32e-01 |
| REACTOME LDL CLEARANCE | 19 | 7.78e-01 | -3.74e-02 | 9.32e-01 |
| REACTOME RUNX1 REGULATES EXPRESSION OF COMPONENTS OF TIGHT JUNCTIONS | 5 | 7.80e-01 | 7.22e-02 | 9.34e-01 |
| REACTOME COBALAMIN CBL METABOLISM | 7 | 7.80e-01 | -6.10e-02 | 9.34e-01 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN WNT SIGNALING | 5 | 7.82e-01 | -7.16e-02 | 9.34e-01 |
| REACTOME LIPOPHAGY | 9 | 7.83e-01 | -5.31e-02 | 9.34e-01 |
| REACTOME METABOLISM OF STEROID HORMONES | 35 | 7.83e-01 | 2.69e-02 | 9.34e-01 |
| REACTOME SARS COV 2 MODULATES AUTOPHAGY | 11 | 7.83e-01 | -4.79e-02 | 9.34e-01 |
| REACTOME TP53 REGULATES TRANSCRIPTION OF GENES INVOLVED IN CYTOCHROME C RELEASE | 20 | 7.84e-01 | -3.53e-02 | 9.34e-01 |
| REACTOME DISORDERS OF TRANSMEMBRANE TRANSPORTERS | 170 | 7.86e-01 | -1.21e-02 | 9.34e-01 |
| REACTOME INDUCTION OF CELL CELL FUSION | 12 | 7.86e-01 | 4.52e-02 | 9.34e-01 |
| REACTOME SYNTHESIS OF DOLICHYL PHOSPHATE | 6 | 7.87e-01 | 6.37e-02 | 9.34e-01 |
| REACTOME SIGNAL AMPLIFICATION | 33 | 7.87e-01 | -2.71e-02 | 9.34e-01 |
| REACTOME HYDROLYSIS OF LPC | 9 | 7.87e-01 | 5.19e-02 | 9.34e-01 |
| REACTOME MET PROMOTES CELL MOTILITY | 41 | 7.88e-01 | 2.43e-02 | 9.34e-01 |
| REACTOME DETOXIFICATION OF REACTIVE OXYGEN SPECIES | 34 | 7.88e-01 | 2.67e-02 | 9.34e-01 |
| REACTOME IRE1ALPHA ACTIVATES CHAPERONES | 48 | 7.89e-01 | 2.23e-02 | 9.34e-01 |
| REACTOME ORGANIC CATION TRANSPORT | 10 | 7.90e-01 | 4.86e-02 | 9.34e-01 |
| REACTOME MITOCHONDRIAL FATTY ACID BETA OXIDATION OF SATURATED FATTY ACIDS | 11 | 7.91e-01 | 4.62e-02 | 9.34e-01 |
| REACTOME DOWNSTREAM SIGNAL TRANSDUCTION | 29 | 7.91e-01 | -2.85e-02 | 9.34e-01 |
| REACTOME CTLA4 INHIBITORY SIGNALING | 21 | 7.91e-01 | 3.34e-02 | 9.34e-01 |
| REACTOME SIGNALING BY NOTCH1 PEST DOMAIN MUTANTS IN CANCER | 54 | 7.91e-01 | -2.09e-02 | 9.34e-01 |
| REACTOME SYNTHESIS OF PIPS AT THE LATE ENDOSOME MEMBRANE | 10 | 7.93e-01 | -4.80e-02 | 9.34e-01 |
| REACTOME CHOLINE CATABOLISM | 6 | 7.93e-01 | 6.19e-02 | 9.34e-01 |
| REACTOME NEGATIVE REGULATION OF ACTIVITY OF TFAP2 AP 2 FAMILY TRANSCRIPTION FACTORS | 10 | 7.96e-01 | 4.73e-02 | 9.34e-01 |
| REACTOME SIGNALING BY MET | 78 | 7.96e-01 | 1.69e-02 | 9.34e-01 |
| REACTOME HEPARAN SULFATE HEPARIN HS GAG METABOLISM | 50 | 7.96e-01 | 2.11e-02 | 9.34e-01 |
| REACTOME MITOTIC TELOPHASE CYTOKINESIS | 11 | 7.96e-01 | -4.50e-02 | 9.34e-01 |
| REACTOME PHOSPHORYLATION OF THE APC C | 20 | 7.97e-01 | -3.33e-02 | 9.34e-01 |
| REACTOME NEUTROPHIL DEGRANULATION | 460 | 7.97e-01 | 7.01e-03 | 9.34e-01 |
| REACTOME DSCAM INTERACTIONS | 11 | 7.97e-01 | 4.48e-02 | 9.34e-01 |
| REACTOME RHOF GTPASE CYCLE | 40 | 7.97e-01 | -2.35e-02 | 9.34e-01 |
| REACTOME FOXO MEDIATED TRANSCRIPTION OF CELL CYCLE GENES | 16 | 7.97e-01 | -3.71e-02 | 9.34e-01 |
| REACTOME CA2 PATHWAY | 62 | 7.98e-01 | -1.88e-02 | 9.34e-01 |
| REACTOME MASTL FACILITATES MITOTIC PROGRESSION | 10 | 7.99e-01 | -4.64e-02 | 9.34e-01 |
| REACTOME REVERSIBLE HYDRATION OF CARBON DIOXIDE | 11 | 8.00e-01 | 4.42e-02 | 9.34e-01 |
| REACTOME NEGATIVE REGULATION OF TCF DEPENDENT SIGNALING BY DVL INTERACTING PROTEINS | 5 | 8.00e-01 | 6.56e-02 | 9.34e-01 |
| REACTOME NEUROTRANSMITTER RELEASE CYCLE | 48 | 8.00e-01 | -2.11e-02 | 9.34e-01 |
| REACTOME DIGESTION | 17 | 8.03e-01 | 3.50e-02 | 9.37e-01 |
| REACTOME PREGNENOLONE BIOSYNTHESIS | 12 | 8.03e-01 | 4.15e-02 | 9.37e-01 |
| REACTOME RAS SIGNALING DOWNSTREAM OF NF1 LOSS OF FUNCTION VARIANTS | 7 | 8.04e-01 | 5.41e-02 | 9.37e-01 |
| REACTOME ELECTRIC TRANSMISSION ACROSS GAP JUNCTIONS | 5 | 8.05e-01 | -6.39e-02 | 9.37e-01 |
| REACTOME TELOMERE EXTENSION BY TELOMERASE | 22 | 8.06e-01 | -3.03e-02 | 9.37e-01 |
| REACTOME ADP SIGNALLING THROUGH P2Y PURINOCEPTOR 12 | 22 | 8.06e-01 | -3.02e-02 | 9.37e-01 |
| REACTOME ROLE OF ABL IN ROBO SLIT SIGNALING | 8 | 8.06e-01 | -5.00e-02 | 9.37e-01 |
| REACTOME BETA OXIDATION OF VERY LONG CHAIN FATTY ACIDS | 10 | 8.06e-01 | 4.47e-02 | 9.37e-01 |
| REACTOME SIGNALING BY PDGFR IN DISEASE | 20 | 8.08e-01 | -3.13e-02 | 9.37e-01 |
| REACTOME LIPID PARTICLE ORGANIZATION | 6 | 8.08e-01 | -5.71e-02 | 9.37e-01 |
| REACTOME TRNA MODIFICATION IN THE NUCLEUS AND CYTOSOL | 41 | 8.09e-01 | -2.18e-02 | 9.37e-01 |
| REACTOME SCAVENGING BY CLASS B RECEPTORS | 6 | 8.10e-01 | 5.68e-02 | 9.38e-01 |
| REACTOME PROCESSIVE SYNTHESIS ON THE C STRAND OF THE TELOMERE | 19 | 8.10e-01 | -3.18e-02 | 9.38e-01 |
| REACTOME CD28 CO STIMULATION | 32 | 8.14e-01 | 2.41e-02 | 9.41e-01 |
| REACTOME PLATELET SENSITIZATION BY LDL | 17 | 8.14e-01 | -3.29e-02 | 9.41e-01 |
| REACTOME ENDOSOMAL VACUOLAR PATHWAY | 11 | 8.15e-01 | -4.07e-02 | 9.41e-01 |
| REACTOME METABOLISM OF AMINE DERIVED HORMONES | 17 | 8.16e-01 | 3.25e-02 | 9.42e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY MECP2 | 60 | 8.17e-01 | 1.73e-02 | 9.42e-01 |
| REACTOME L1CAM INTERACTIONS | 112 | 8.19e-01 | 1.25e-02 | 9.44e-01 |
| REACTOME LONG TERM POTENTIATION | 22 | 8.20e-01 | -2.80e-02 | 9.44e-01 |
| REACTOME RHO GTPASES ACTIVATE KTN1 | 11 | 8.20e-01 | -3.96e-02 | 9.44e-01 |
| REACTOME ROS AND RNS PRODUCTION IN PHAGOCYTES | 34 | 8.21e-01 | -2.24e-02 | 9.44e-01 |
| REACTOME ACTIVATION OF THE TFAP2 AP 2 FAMILY OF TRANSCRIPTION FACTORS | 11 | 8.22e-01 | -3.92e-02 | 9.44e-01 |
| REACTOME LEISHMANIA INFECTION | 156 | 8.23e-01 | 1.04e-02 | 9.44e-01 |
| REACTOME GOLGI TO ER RETROGRADE TRANSPORT | 132 | 8.23e-01 | 1.13e-02 | 9.45e-01 |
| REACTOME FOXO MEDIATED TRANSCRIPTION | 65 | 8.25e-01 | -1.59e-02 | 9.46e-01 |
| REACTOME IRF3 MEDIATED ACTIVATION OF TYPE 1 IFN | 5 | 8.25e-01 | 5.70e-02 | 9.46e-01 |
| REACTOME SIGNAL TRANSDUCTION BY L1 | 20 | 8.27e-01 | -2.82e-02 | 9.46e-01 |
| REACTOME RAF INDEPENDENT MAPK1 3 ACTIVATION | 22 | 8.28e-01 | -2.67e-02 | 9.46e-01 |
| REACTOME BETA CATENIN PHOSPHORYLATION CASCADE | 16 | 8.28e-01 | 3.13e-02 | 9.46e-01 |
| REACTOME CLEC7A DECTIN 1 INDUCES NFAT ACTIVATION | 11 | 8.30e-01 | 3.75e-02 | 9.46e-01 |
| REACTOME POST TRANSCRIPTIONAL SILENCING BY SMALL RNAS | 7 | 8.30e-01 | 4.69e-02 | 9.46e-01 |
| REACTOME FORMATION OF XYLULOSE 5 PHOSPHATE | 5 | 8.30e-01 | -5.54e-02 | 9.46e-01 |
| REACTOME DOPAMINE NEUROTRANSMITTER RELEASE CYCLE | 21 | 8.30e-01 | 2.70e-02 | 9.46e-01 |
| REACTOME SEROTONIN NEUROTRANSMITTER RELEASE CYCLE | 17 | 8.31e-01 | 2.99e-02 | 9.46e-01 |
| REACTOME BIOSYNTHESIS OF SPECIALIZED PRORESOLVING MEDIATORS SPMS | 19 | 8.32e-01 | -2.82e-02 | 9.46e-01 |
| REACTOME GLUTATHIONE CONJUGATION | 33 | 8.32e-01 | -2.14e-02 | 9.46e-01 |
| REACTOME ACYL CHAIN REMODELLING OF PC | 27 | 8.33e-01 | 2.35e-02 | 9.47e-01 |
| REACTOME ABERRANT REGULATION OF MITOTIC EXIT IN CANCER DUE TO RB1 DEFECTS | 20 | 8.33e-01 | 2.72e-02 | 9.47e-01 |
| REACTOME COMPLEMENT CASCADE | 54 | 8.34e-01 | -1.65e-02 | 9.47e-01 |
| REACTOME ABC TRANSPORTERS IN LIPID HOMEOSTASIS | 17 | 8.35e-01 | 2.92e-02 | 9.47e-01 |
| REACTOME SARS COV 2 TARGETS HOST INTRACELLULAR SIGNALLING AND REGULATORY PATHWAYS | 12 | 8.36e-01 | 3.44e-02 | 9.48e-01 |
| REACTOME PURINE CATABOLISM | 17 | 8.37e-01 | -2.87e-02 | 9.48e-01 |
| REACTOME ACTIVATION OF BH3 ONLY PROTEINS | 30 | 8.38e-01 | -2.16e-02 | 9.48e-01 |
| REACTOME ESTROGEN BIOSYNTHESIS | 6 | 8.38e-01 | -4.82e-02 | 9.48e-01 |
| REACTOME METABOLISM OF FAT SOLUBLE VITAMINS | 46 | 8.40e-01 | -1.72e-02 | 9.49e-01 |
| REACTOME CGMP EFFECTS | 16 | 8.40e-01 | 2.92e-02 | 9.49e-01 |
| REACTOME FORMATION OF THE EARLY ELONGATION COMPLEX | 32 | 8.41e-01 | 2.05e-02 | 9.50e-01 |
| REACTOME ABACAVIR ADME | 9 | 8.41e-01 | 3.85e-02 | 9.50e-01 |
| REACTOME CIPROFLOXACIN ADME | 5 | 8.42e-01 | -5.14e-02 | 9.50e-01 |
| REACTOME CHYLOMICRON ASSEMBLY | 10 | 8.46e-01 | -3.54e-02 | 9.53e-01 |
| REACTOME GAP JUNCTION DEGRADATION | 12 | 8.47e-01 | 3.22e-02 | 9.53e-01 |
| REACTOME ER QUALITY CONTROL COMPARTMENT ERQC | 21 | 8.47e-01 | -2.42e-02 | 9.53e-01 |
| REACTOME KINESINS | 59 | 8.48e-01 | 1.45e-02 | 9.53e-01 |
| REACTOME DEFECTIVE EXT2 CAUSES EXOSTOSES 2 | 12 | 8.48e-01 | 3.20e-02 | 9.53e-01 |
| REACTOME PHENYLALANINE METABOLISM | 6 | 8.51e-01 | 4.42e-02 | 9.56e-01 |
| REACTOME SIGNALING BY LEPTIN | 11 | 8.52e-01 | 3.26e-02 | 9.56e-01 |
| REACTOME HIV ELONGATION ARREST AND RECOVERY | 33 | 8.52e-01 | 1.87e-02 | 9.56e-01 |
| REACTOME UNWINDING OF DNA | 12 | 8.54e-01 | -3.07e-02 | 9.57e-01 |
| REACTOME INTERLEUKIN 2 FAMILY SIGNALING | 40 | 8.55e-01 | 1.67e-02 | 9.57e-01 |
| REACTOME TRANSPORT OF BILE SALTS AND ORGANIC ACIDS METAL IONS AND AMINE COMPOUNDS | 82 | 8.56e-01 | 1.16e-02 | 9.57e-01 |
| REACTOME REGULATION OF PLK1 ACTIVITY AT G2 M TRANSITION | 84 | 8.57e-01 | -1.14e-02 | 9.57e-01 |
| REACTOME CROSS PRESENTATION OF PARTICULATE EXOGENOUS ANTIGENS PHAGOSOMES | 6 | 8.58e-01 | -4.23e-02 | 9.57e-01 |
| REACTOME DCC MEDIATED ATTRACTIVE SIGNALING | 14 | 8.58e-01 | -2.77e-02 | 9.57e-01 |
| REACTOME CHEMOKINE RECEPTORS BIND CHEMOKINES | 55 | 8.58e-01 | 1.40e-02 | 9.57e-01 |
| REACTOME GOLGI CISTERNAE PERICENTRIOLAR STACK REORGANIZATION | 14 | 8.59e-01 | 2.74e-02 | 9.58e-01 |
| REACTOME RUNX3 REGULATES BCL2L11 BIM TRANSCRIPTION | 5 | 8.60e-01 | 4.56e-02 | 9.58e-01 |
| REACTOME N GLYCAN TRIMMING AND ELONGATION IN THE CIS GOLGI | 5 | 8.61e-01 | -4.53e-02 | 9.58e-01 |
| REACTOME PYRIMIDINE CATABOLISM | 12 | 8.61e-01 | -2.92e-02 | 9.58e-01 |
| REACTOME GLYCOSPHINGOLIPID METABOLISM | 39 | 8.62e-01 | 1.61e-02 | 9.59e-01 |
| REACTOME TRANSLATION OF SARS COV 1 STRUCTURAL PROTEINS | 29 | 8.63e-01 | 1.85e-02 | 9.59e-01 |
| REACTOME COPI MEDIATED ANTEROGRADE TRANSPORT | 101 | 8.63e-01 | -9.91e-03 | 9.59e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY E2F6 | 32 | 8.63e-01 | 1.76e-02 | 9.59e-01 |
| REACTOME SIGNALING BY FGFR4 | 40 | 8.65e-01 | 1.56e-02 | 9.59e-01 |
| REACTOME FANCONI ANEMIA PATHWAY | 35 | 8.65e-01 | 1.66e-02 | 9.59e-01 |
| REACTOME LYSOSPHINGOLIPID AND LPA RECEPTORS | 14 | 8.66e-01 | -2.61e-02 | 9.59e-01 |
| REACTOME METABOLIC DISORDERS OF BIOLOGICAL OXIDATION ENZYMES | 33 | 8.66e-01 | -1.70e-02 | 9.59e-01 |
| REACTOME INTERLEUKIN 6 SIGNALING | 11 | 8.66e-01 | -2.93e-02 | 9.59e-01 |
| REACTOME DISEASES ASSOCIATED WITH N GLYCOSYLATION OF PROTEINS | 19 | 8.67e-01 | 2.21e-02 | 9.59e-01 |
| REACTOME FCGAMMA RECEPTOR FCGR DEPENDENT PHAGOCYTOSIS | 83 | 8.67e-01 | -1.06e-02 | 9.59e-01 |
| REACTOME MITOCHONDRIAL CALCIUM ION TRANSPORT | 23 | 8.69e-01 | -1.98e-02 | 9.60e-01 |
| REACTOME SUMOYLATION OF RNA BINDING PROTEINS | 47 | 8.70e-01 | 1.38e-02 | 9.60e-01 |
| REACTOME POTENTIAL THERAPEUTICS FOR SARS | 92 | 8.73e-01 | -9.61e-03 | 9.63e-01 |
| REACTOME ASSEMBLY AND CELL SURFACE PRESENTATION OF NMDA RECEPTORS | 41 | 8.75e-01 | 1.42e-02 | 9.65e-01 |
| REACTOME NEGATIVE REGULATION OF THE PI3K AKT NETWORK | 111 | 8.77e-01 | 8.50e-03 | 9.65e-01 |
| REACTOME SYNTHESIS OF PYROPHOSPHATES IN THE CYTOSOL | 8 | 8.77e-01 | 3.15e-02 | 9.65e-01 |
| REACTOME POU5F1 OCT4 SOX2 NANOG REPRESS GENES RELATED TO DIFFERENTIATION | 10 | 8.79e-01 | 2.78e-02 | 9.66e-01 |
| REACTOME METABOLISM OF VITAMINS AND COFACTORS | 185 | 8.79e-01 | -6.49e-03 | 9.66e-01 |
| REACTOME MINERALOCORTICOID BIOSYNTHESIS | 6 | 8.80e-01 | 3.56e-02 | 9.66e-01 |
| REACTOME CONVERSION FROM APC C CDC20 TO APC C CDH1 IN LATE ANAPHASE | 20 | 8.82e-01 | -1.92e-02 | 9.66e-01 |
| REACTOME DEFECTIVE CHSY1 CAUSES TPBS | 7 | 8.82e-01 | 3.24e-02 | 9.66e-01 |
| REACTOME PHOSPHORYLATION OF EMI1 | 6 | 8.83e-01 | 3.46e-02 | 9.66e-01 |
| REACTOME TNFS BIND THEIR PHYSIOLOGICAL RECEPTORS | 26 | 8.84e-01 | -1.66e-02 | 9.66e-01 |
| REACTOME INTRAFLAGELLAR TRANSPORT | 50 | 8.85e-01 | -1.18e-02 | 9.66e-01 |
| REACTOME DISPLACEMENT OF DNA GLYCOSYLASE BY APEX1 | 9 | 8.85e-01 | 2.78e-02 | 9.66e-01 |
| REACTOME NGF INDEPENDANT TRKA ACTIVATION | 5 | 8.86e-01 | 3.71e-02 | 9.66e-01 |
| REACTOME PURINE SALVAGE | 12 | 8.86e-01 | 2.40e-02 | 9.66e-01 |
| REACTOME DECTIN 2 FAMILY | 26 | 8.88e-01 | 1.59e-02 | 9.66e-01 |
| REACTOME INTERLEUKIN 6 FAMILY SIGNALING | 24 | 8.91e-01 | -1.62e-02 | 9.66e-01 |
| REACTOME TRAIL SIGNALING | 8 | 8.91e-01 | -2.80e-02 | 9.66e-01 |
| REACTOME INTEGRIN CELL SURFACE INTERACTIONS | 83 | 8.92e-01 | 8.61e-03 | 9.66e-01 |
| REACTOME NFE2L2 REGULATING ANTI OXIDANT DETOXIFICATION ENZYMES | 17 | 8.92e-01 | 1.90e-02 | 9.66e-01 |
| REACTOME SIGNALLING TO ERKS | 34 | 8.93e-01 | -1.33e-02 | 9.66e-01 |
| REACTOME ADP SIGNALLING THROUGH P2Y PURINOCEPTOR 1 | 25 | 8.93e-01 | 1.55e-02 | 9.66e-01 |
| REACTOME ACTIVATED NTRK3 SIGNALS THROUGH PI3K | 6 | 8.93e-01 | 3.16e-02 | 9.66e-01 |
| REACTOME G2 M DNA REPLICATION CHECKPOINT | 5 | 8.93e-01 | -3.46e-02 | 9.66e-01 |
| REACTOME GLYCOGEN METABOLISM | 22 | 8.93e-01 | 1.65e-02 | 9.66e-01 |
| REACTOME TRANSCRIPTIONAL REGULATION BY NPAS4 | 33 | 8.93e-01 | -1.35e-02 | 9.66e-01 |
| REACTOME INTERLEUKIN 35 SIGNALLING | 12 | 8.94e-01 | 2.22e-02 | 9.66e-01 |
| REACTOME RAC3 GTPASE CYCLE | 85 | 8.94e-01 | -8.36e-03 | 9.66e-01 |
| REACTOME TRANSPORT TO THE GOLGI AND SUBSEQUENT MODIFICATION | 183 | 8.95e-01 | 5.67e-03 | 9.66e-01 |
| REACTOME G1 S SPECIFIC TRANSCRIPTION | 28 | 8.95e-01 | -1.44e-02 | 9.66e-01 |
| REACTOME DEFECTS IN COBALAMIN B12 METABOLISM | 13 | 8.95e-01 | -2.11e-02 | 9.66e-01 |
| REACTOME SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 24 HYDROXYCHOLESTEROL | 14 | 8.96e-01 | -2.03e-02 | 9.66e-01 |
| REACTOME REGULATION OF HMOX1 EXPRESSION AND ACTIVITY | 5 | 8.96e-01 | 3.38e-02 | 9.66e-01 |
| REACTOME WNT5A DEPENDENT INTERNALIZATION OF FZD4 | 15 | 8.97e-01 | 1.94e-02 | 9.66e-01 |
| REACTOME RHO GTPASES ACTIVATE IQGAPS | 31 | 8.98e-01 | 1.33e-02 | 9.66e-01 |
| REACTOME MEMBRANE TRAFFICKING | 603 | 8.99e-01 | -3.03e-03 | 9.66e-01 |
| REACTOME SENSORY PROCESSING OF SOUND | 72 | 8.99e-01 | -8.63e-03 | 9.66e-01 |
| REACTOME UNBLOCKING OF NMDA RECEPTORS GLUTAMATE BINDING AND ACTIVATION | 19 | 9.01e-01 | -1.65e-02 | 9.66e-01 |
| REACTOME MELANIN BIOSYNTHESIS | 5 | 9.01e-01 | 3.20e-02 | 9.66e-01 |
| REACTOME ADRENALINE NORADRENALINE INHIBITS INSULIN SECRETION | 28 | 9.02e-01 | 1.35e-02 | 9.66e-01 |
| REACTOME DEFECTIVE B4GALT1 CAUSES B4GALT1 CDG CDG 2D | 8 | 9.02e-01 | 2.51e-02 | 9.66e-01 |
| REACTOME PRESYNAPTIC FUNCTION OF KAINATE RECEPTORS | 21 | 9.03e-01 | 1.54e-02 | 9.66e-01 |
| REACTOME FBXW7 MUTANTS AND NOTCH1 IN CANCER | 5 | 9.03e-01 | -3.15e-02 | 9.66e-01 |
| REACTOME SUMO IS TRANSFERRED FROM E1 TO E2 UBE2I UBC9 | 7 | 9.03e-01 | -2.66e-02 | 9.66e-01 |
| REACTOME SIGNALLING TO RAS | 20 | 9.04e-01 | 1.56e-02 | 9.66e-01 |
| REACTOME GLUCONEOGENESIS | 33 | 9.04e-01 | -1.21e-02 | 9.66e-01 |
| REACTOME FATTY ACID METABOLISM | 170 | 9.04e-01 | -5.36e-03 | 9.66e-01 |
| REACTOME HEMOSTASIS | 591 | 9.04e-01 | -2.90e-03 | 9.66e-01 |
| REACTOME MUSCARINIC ACETYLCHOLINE RECEPTORS | 5 | 9.04e-01 | 3.10e-02 | 9.66e-01 |
| REACTOME ONCOGENIC MAPK SIGNALING | 79 | 9.05e-01 | 7.76e-03 | 9.66e-01 |
| REACTOME EPITHELIAL MESENCHYMAL TRANSITION EMT DURING GASTRULATION | 7 | 9.05e-01 | 2.60e-02 | 9.66e-01 |
| REACTOME REGULATION OF NPAS4 MRNA TRANSLATION | 9 | 9.06e-01 | -2.26e-02 | 9.67e-01 |
| REACTOME BETA OXIDATION OF HEXANOYL COA TO BUTANOYL COA | 5 | 9.09e-01 | -2.94e-02 | 9.69e-01 |
| REACTOME ENDOSOMAL SORTING COMPLEX REQUIRED FOR TRANSPORT ESCRT | 31 | 9.10e-01 | -1.17e-02 | 9.69e-01 |
| REACTOME SIGNALING BY FGFR2 | 72 | 9.12e-01 | -7.57e-03 | 9.70e-01 |
| REACTOME SUMOYLATION OF IMMUNE RESPONSE PROTEINS | 10 | 9.13e-01 | 2.00e-02 | 9.71e-01 |
| REACTOME SIGNALING BY CTNNB1 PHOSPHO SITE MUTANTS | 14 | 9.15e-01 | 1.65e-02 | 9.72e-01 |
| REACTOME VLDL ASSEMBLY | 5 | 9.16e-01 | -2.72e-02 | 9.73e-01 |
| REACTOME MET RECEPTOR ACTIVATION | 6 | 9.17e-01 | -2.45e-02 | 9.73e-01 |
| REACTOME APOPTOTIC CLEAVAGE OF CELLULAR PROTEINS | 35 | 9.18e-01 | 1.01e-02 | 9.73e-01 |
| REACTOME TRANSPORT OF CONNEXONS TO THE PLASMA MEMBRANE | 20 | 9.20e-01 | 1.30e-02 | 9.75e-01 |
| REACTOME SEMAPHORIN INTERACTIONS | 61 | 9.21e-01 | 7.36e-03 | 9.75e-01 |
| REACTOME POU5F1 OCT4 SOX2 NANOG ACTIVATE GENES RELATED TO PROLIFERATION | 11 | 9.24e-01 | 1.67e-02 | 9.77e-01 |
| REACTOME REGULATION OF GENE EXPRESSION BY HYPOXIA INDUCIBLE FACTOR | 11 | 9.24e-01 | 1.67e-02 | 9.77e-01 |
| REACTOME TYSND1 CLEAVES PEROXISOMAL PROTEINS | 7 | 9.24e-01 | -2.08e-02 | 9.77e-01 |
| REACTOME DEADENYLATION OF MRNA | 25 | 9.25e-01 | -1.09e-02 | 9.77e-01 |
| REACTOME TRANSFERRIN ENDOCYTOSIS AND RECYCLING | 30 | 9.27e-01 | 9.63e-03 | 9.79e-01 |
| REACTOME NOTCH3 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 24 | 9.28e-01 | -1.06e-02 | 9.79e-01 |
| REACTOME BETA OXIDATION OF LAUROYL COA TO DECANOYL COA COA | 5 | 9.29e-01 | -2.31e-02 | 9.79e-01 |
| REACTOME METABOLISM OF NUCLEOTIDES | 94 | 9.30e-01 | 5.25e-03 | 9.79e-01 |
| REACTOME FOXO MEDIATED TRANSCRIPTION OF OXIDATIVE STRESS METABOLIC AND NEURONAL GENES | 29 | 9.30e-01 | 9.42e-03 | 9.79e-01 |
| REACTOME RAB GEFS EXCHANGE GTP FOR GDP ON RABS | 81 | 9.30e-01 | 5.64e-03 | 9.79e-01 |
| REACTOME RND1 GTPASE CYCLE | 41 | 9.32e-01 | 7.72e-03 | 9.80e-01 |
| REACTOME DEFECTIVE CHST3 CAUSES SEDCJD | 7 | 9.32e-01 | -1.86e-02 | 9.80e-01 |
| REACTOME MECP2 REGULATES TRANSCRIPTION OF NEURONAL LIGANDS | 7 | 9.34e-01 | -1.82e-02 | 9.81e-01 |
| REACTOME APOPTOTIC CLEAVAGE OF CELL ADHESION PROTEINS | 11 | 9.35e-01 | 1.43e-02 | 9.81e-01 |
| REACTOME PYROPTOSIS | 27 | 9.35e-01 | -9.06e-03 | 9.81e-01 |
| REACTOME ENDOGENOUS STEROLS | 26 | 9.35e-01 | 9.19e-03 | 9.81e-01 |
| REACTOME MET ACTIVATES PTK2 SIGNALING | 30 | 9.37e-01 | -8.34e-03 | 9.82e-01 |
| REACTOME NOTCH4 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 19 | 9.38e-01 | 1.03e-02 | 9.82e-01 |
| REACTOME DOWNREGULATION OF ERBB2 ERBB3 SIGNALING | 13 | 9.39e-01 | 1.22e-02 | 9.83e-01 |
| REACTOME LYSOSOME VESICLE BIOGENESIS | 33 | 9.40e-01 | 7.58e-03 | 9.83e-01 |
| REACTOME INHIBITION OF REPLICATION INITIATION OF DAMAGED DNA BY RB1 E2F1 | 11 | 9.42e-01 | 1.26e-02 | 9.85e-01 |
| REACTOME UPTAKE AND FUNCTION OF ANTHRAX TOXINS | 11 | 9.44e-01 | 1.23e-02 | 9.85e-01 |
| REACTOME ERYTHROPOIETIN ACTIVATES STAT5 | 7 | 9.44e-01 | -1.53e-02 | 9.85e-01 |
| REACTOME SIGNALING BY NOTCH1 | 69 | 9.44e-01 | -4.86e-03 | 9.85e-01 |
| REACTOME TRP CHANNELS | 27 | 9.45e-01 | 7.69e-03 | 9.85e-01 |
| REACTOME RIP MEDIATED NFKB ACTIVATION VIA ZBP1 | 16 | 9.47e-01 | 9.66e-03 | 9.86e-01 |
| REACTOME MTOR SIGNALLING | 40 | 9.48e-01 | -5.92e-03 | 9.87e-01 |
| REACTOME RECEPTOR TYPE TYROSINE PROTEIN PHOSPHATASES | 16 | 9.50e-01 | 8.99e-03 | 9.88e-01 |
| REACTOME PLASMA LIPOPROTEIN CLEARANCE | 37 | 9.51e-01 | 5.80e-03 | 9.88e-01 |
| REACTOME BIOTIN TRANSPORT AND METABOLISM | 10 | 9.51e-01 | 1.11e-02 | 9.88e-01 |
| REACTOME MISCELLANEOUS TRANSPORT AND BINDING EVENTS | 24 | 9.51e-01 | 7.18e-03 | 9.88e-01 |
| REACTOME SUMO IS PROTEOLYTICALLY PROCESSED | 6 | 9.52e-01 | -1.42e-02 | 9.88e-01 |
| REACTOME AKT PHOSPHORYLATES TARGETS IN THE CYTOSOL | 14 | 9.54e-01 | 8.96e-03 | 9.89e-01 |
| REACTOME SIGNALING BY RETINOIC ACID | 41 | 9.54e-01 | -5.15e-03 | 9.89e-01 |
| REACTOME AMINO ACIDS REGULATE MTORC1 | 53 | 9.55e-01 | -4.49e-03 | 9.89e-01 |
| REACTOME PIWI INTERACTING RNA PIRNA BIOGENESIS | 29 | 9.55e-01 | 6.05e-03 | 9.89e-01 |
| REACTOME ACTIVATION OF THE AP 1 FAMILY OF TRANSCRIPTION FACTORS | 10 | 9.56e-01 | -1.00e-02 | 9.89e-01 |
| REACTOME MUCOPOLYSACCHARIDOSES | 10 | 9.56e-01 | 9.98e-03 | 9.89e-01 |
| REACTOME MITOCHONDRIAL UNCOUPLING | 5 | 9.57e-01 | 1.38e-02 | 9.89e-01 |
| REACTOME PI3K AKT SIGNALING IN CANCER | 103 | 9.57e-01 | 3.04e-03 | 9.89e-01 |
| REACTOME VASOPRESSIN LIKE RECEPTORS | 5 | 9.58e-01 | 1.35e-02 | 9.89e-01 |
| REACTOME MITOCHONDRIAL FATTY ACID BETA OXIDATION | 36 | 9.60e-01 | 4.79e-03 | 9.89e-01 |
| REACTOME PLATELET AGGREGATION PLUG FORMATION | 39 | 9.60e-01 | 4.60e-03 | 9.89e-01 |
| REACTOME OTHER SEMAPHORIN INTERACTIONS | 18 | 9.60e-01 | 6.76e-03 | 9.89e-01 |
| REACTOME NPAS4 REGULATES EXPRESSION OF TARGET GENES | 21 | 9.64e-01 | 5.70e-03 | 9.92e-01 |
| REACTOME HYALURONAN METABOLISM | 17 | 9.65e-01 | 6.22e-03 | 9.92e-01 |
| REACTOME MAPK TARGETS NUCLEAR EVENTS MEDIATED BY MAP KINASES | 29 | 9.65e-01 | 4.71e-03 | 9.92e-01 |
| REACTOME METABOLISM OF FOLATE AND PTERINES | 17 | 9.65e-01 | 6.13e-03 | 9.92e-01 |
| REACTOME RAP1 SIGNALLING | 16 | 9.67e-01 | -5.93e-03 | 9.92e-01 |
| REACTOME CELLULAR HEXOSE TRANSPORT | 21 | 9.67e-01 | -5.15e-03 | 9.92e-01 |
| REACTOME PI5P REGULATES TP53 ACETYLATION | 9 | 9.67e-01 | 7.85e-03 | 9.92e-01 |
| REACTOME FORMATION OF TUBULIN FOLDING INTERMEDIATES BY CCT TRIC | 26 | 9.68e-01 | 4.59e-03 | 9.92e-01 |
| REACTOME RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN INTERLEUKIN SIGNALING | 5 | 9.68e-01 | -1.02e-02 | 9.92e-01 |
| REACTOME NEUREXINS AND NEUROLIGINS | 51 | 9.69e-01 | 3.12e-03 | 9.92e-01 |
| REACTOME POLO LIKE KINASE MEDIATED EVENTS | 16 | 9.71e-01 | -5.22e-03 | 9.94e-01 |
| REACTOME AGGREPHAGY | 42 | 9.73e-01 | 3.02e-03 | 9.95e-01 |
| REACTOME SERINE BIOSYNTHESIS | 9 | 9.74e-01 | -6.29e-03 | 9.95e-01 |
| REACTOME RIBAVIRIN ADME | 11 | 9.75e-01 | -5.47e-03 | 9.96e-01 |
| REACTOME REGULATION OF INSULIN LIKE GROWTH FACTOR IGF TRANSPORT AND UPTAKE BY INSULIN LIKE GROWTH FACTOR BINDING PROTEINS IGFBPS | 118 | 9.76e-01 | 1.63e-03 | 9.96e-01 |
| REACTOME PROSTACYCLIN SIGNALLING THROUGH PROSTACYCLIN RECEPTOR | 19 | 9.77e-01 | -3.85e-03 | 9.96e-01 |
| REACTOME ASSEMBLY OF ACTIVE LPL AND LIPC LIPASE COMPLEXES | 18 | 9.77e-01 | 3.89e-03 | 9.96e-01 |
| REACTOME NEUROTOXICITY OF CLOSTRIDIUM TOXINS | 10 | 9.80e-01 | 4.59e-03 | 9.98e-01 |
| REACTOME SYNTHESIS OF LIPOXINS LX | 6 | 9.82e-01 | -5.45e-03 | 9.98e-01 |
| REACTOME COPI DEPENDENT GOLGI TO ER RETROGRADE TRAFFIC | 98 | 9.82e-01 | -1.35e-03 | 9.98e-01 |
| REACTOME RAS ACTIVATION UPON CA2 INFLUX THROUGH NMDA RECEPTOR | 19 | 9.83e-01 | 2.82e-03 | 9.98e-01 |
| REACTOME GASTRIN CREB SIGNALLING PATHWAY VIA PKC AND MAPK | 17 | 9.84e-01 | -2.88e-03 | 9.98e-01 |
| REACTOME RELEASE OF APOPTOTIC FACTORS FROM THE MITOCHONDRIA | 7 | 9.84e-01 | -4.27e-03 | 9.98e-01 |
| REACTOME ZBP1 DAI MEDIATED INDUCTION OF TYPE I IFNS | 20 | 9.84e-01 | -2.52e-03 | 9.98e-01 |
| REACTOME INTERLEUKIN 27 SIGNALING | 11 | 9.85e-01 | 3.26e-03 | 9.98e-01 |
| REACTOME ACETYLCHOLINE NEUROTRANSMITTER RELEASE CYCLE | 17 | 9.86e-01 | -2.43e-03 | 9.98e-01 |
| REACTOME P38MAPK EVENTS | 13 | 9.86e-01 | 2.78e-03 | 9.98e-01 |
| REACTOME ERYTHROCYTES TAKE UP CARBON DIOXIDE AND RELEASE OXYGEN | 13 | 9.86e-01 | -2.71e-03 | 9.98e-01 |
| REACTOME SYNTHESIS OF 15 EICOSATETRAENOIC ACID DERIVATIVES | 6 | 9.87e-01 | 3.83e-03 | 9.98e-01 |
| REACTOME AURKA ACTIVATION BY TPX2 | 69 | 9.88e-01 | -1.09e-03 | 9.98e-01 |
| REACTOME PLASMA LIPOPROTEIN ASSEMBLY REMODELING AND CLEARANCE | 74 | 9.88e-01 | 1.05e-03 | 9.98e-01 |
| REACTOME PI3K AKT ACTIVATION | 9 | 9.89e-01 | -2.73e-03 | 9.98e-01 |
| REACTOME PHOSPHATE BOND HYDROLYSIS BY NTPDASE PROTEINS | 8 | 9.89e-01 | -2.70e-03 | 9.98e-01 |
| REACTOME SUPPRESSION OF APOPTOSIS | 7 | 9.92e-01 | -2.29e-03 | 9.98e-01 |
| REACTOME SYNTHESIS OF 5 EICOSATETRAENOIC ACIDS | 9 | 9.92e-01 | 2.00e-03 | 9.98e-01 |
| REACTOME CASPASE ACTIVATION VIA DEPENDENCE RECEPTORS IN THE ABSENCE OF LIGAND | 9 | 9.92e-01 | 1.96e-03 | 9.98e-01 |
| REACTOME ACYL CHAIN REMODELLING OF PG | 18 | 9.93e-01 | 1.16e-03 | 9.98e-01 |
| REACTOME NR1H2 NR1H3 REGULATE GENE EXPRESSION LINKED TO GLUCONEOGENESIS | 5 | 9.94e-01 | 1.98e-03 | 9.98e-01 |
| REACTOME THYROXINE BIOSYNTHESIS | 10 | 9.94e-01 | -1.35e-03 | 9.98e-01 |
| REACTOME KERATAN SULFATE DEGRADATION | 13 | 9.94e-01 | 1.13e-03 | 9.98e-01 |
| REACTOME DISEASES OF CARBOHYDRATE METABOLISM | 31 | 9.95e-01 | -7.13e-04 | 9.98e-01 |
| REACTOME G PROTEIN ACTIVATION | 24 | 9.95e-01 | -6.82e-04 | 9.98e-01 |
| REACTOME SIGNALING BY HEDGEHOG | 148 | 9.96e-01 | -2.55e-04 | 9.98e-01 |
| REACTOME METABOLISM OF ANGIOTENSINOGEN TO ANGIOTENSINS | 16 | 9.96e-01 | -6.42e-04 | 9.98e-01 |
| REACTOME ACTIVATION OF PPARGC1A PGC 1ALPHA BY PHOSPHORYLATION | 10 | 9.97e-01 | 7.91e-04 | 9.98e-01 |
| REACTOME HIV TRANSCRIPTION ELONGATION | 42 | 9.97e-01 | -3.86e-04 | 9.98e-01 |
| REACTOME APOPTOTIC FACTOR MEDIATED RESPONSE | 19 | 9.97e-01 | 4.50e-04 | 9.98e-01 |
| REACTOME ASPARAGINE N LINKED GLYCOSYLATION | 299 | 1.00e+00 | -1.16e-05 | 1.00e+00 |
Detailed Gene set reports
REACTOME_TRANSLATION
| 1152 | |
|---|---|
| set | REACTOME_TRANSLATION |
| setSize | 278 |
| pANOVA | 4.49e-21 |
| s.dist | -0.328 |
| p.adjustANOVA | 7.37e-18 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| EIF3G | -10319 |
| RPL39L | -10291 |
| SPCS1 | -10221 |
| SSR2 | -10153 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| TUFM | -9885 |
| MRPS11 | -9876 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| EEF1G | -9803 |
| MRPL17 | -9794 |
| AIMP1 | -9776 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| N6AMT1 | -9597 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| EIF3G | -10319.0 |
| RPL39L | -10291.0 |
| SPCS1 | -10221.0 |
| SSR2 | -10153.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| TUFM | -9885.0 |
| MRPS11 | -9876.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| EEF1G | -9803.0 |
| MRPL17 | -9794.0 |
| AIMP1 | -9776.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| N6AMT1 | -9597.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| EEF1B2 | -9504.0 |
| RPS26 | -9490.0 |
| SEC11C | -9480.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| MRPL4 | -9305.0 |
| SEC61B | -9301.0 |
| EIF3F | -9276.0 |
| RPL9 | -9273.0 |
| MRPS18A | -9260.0 |
| MRPL51 | -9233.0 |
| MRPL53 | -9185.0 |
| MRPL37 | -9150.0 |
| MRPL13 | -9145.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| MRPL32 | -8923.0 |
| MRPL2 | -8848.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| MRPL46 | -8605.0 |
| MTFMT | -8556.0 |
| YARS2 | -8538.0 |
| MRPS31 | -8507.0 |
| RPSA | -8467.0 |
| MRPL15 | -8425.0 |
| MRPL58 | -8421.0 |
| EIF3J | -8418.0 |
| MRPS15 | -8403.0 |
| MRPS7 | -8395.0 |
| SEC11A | -8337.0 |
| MRPL48 | -8207.0 |
| MRPL10 | -8177.0 |
| AIMP2 | -8156.0 |
| EIF2S1 | -8073.0 |
| MRPS16 | -8029.0 |
| MRPL21 | -8010.0 |
| MRPL18 | -7989.0 |
| MARS2 | -7979.0 |
| MRPL12 | -7921.0 |
| RPLP0 | -7893.0 |
| MRPL33 | -7871.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| WARS1 | -7812.0 |
| RPS19 | -7779.0 |
| MTIF3 | -7770.0 |
| RPS2 | -7738.0 |
| MRPL55 | -7722.0 |
| RPL4 | -7711.0 |
| MRPL40 | -7710.0 |
| EIF2B1 | -7695.0 |
| RPL36 | -7654.0 |
| MRPL36 | -7524.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| SRPRB | -7364.0 |
| RPL15 | -7360.0 |
| EARS2 | -7231.0 |
| RPN1 | -7172.0 |
| RPS7 | -7130.0 |
| CHCHD1 | -7089.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| EIF3I | -6950.0 |
| MRPS23 | -6927.0 |
| RPL7A | -6925.0 |
| SRP14 | -6917.0 |
| MRPS33 | -6892.0 |
| MRPL39 | -6867.0 |
| RPL18A | -6838.0 |
| MRPL54 | -6824.0 |
| MRPS17 | -6822.0 |
| RPL37 | -6792.0 |
| SRP9 | -6783.0 |
| MRPL41 | -6677.0 |
| TSFM | -6642.0 |
| TRMT112 | -6447.0 |
| SEC61G | -6441.0 |
| EIF2S2 | -6392.0 |
| RPL8 | -6347.0 |
| MRPL14 | -6344.0 |
| RPS13 | -6339.0 |
| EIF3L | -6206.0 |
| RPN2 | -6204.0 |
| RPS27L | -6200.0 |
| SRP54 | -6106.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| NARS2 | -5926.0 |
| RPL27 | -5884.0 |
| EEF1A1 | -5856.0 |
| RPS11 | -5850.0 |
| MRPS30 | -5841.0 |
| EIF4H | -5819.0 |
| MRPL27 | -5785.0 |
| RPL29 | -5778.0 |
| MRPL30 | -5623.0 |
| EIF4E | -5369.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| EIF4A1 | -5317.0 |
| MRPL47 | -5312.0 |
| MRPL3 | -5232.0 |
| PARS2 | -5196.0 |
| MRPL52 | -5167.0 |
| RPL12 | -5128.0 |
| ERAL1 | -5119.0 |
| AURKAIP1 | -5110.0 |
| FAU | -5092.0 |
| MRPL9 | -5079.0 |
| EIF4EBP1 | -5052.0 |
| MRPL34 | -4978.0 |
| SEC61A1 | -4963.0 |
| UBA52 | -4934.0 |
| MRPL49 | -4933.0 |
| MRPL24 | -4927.0 |
| MRPS24 | -4891.0 |
| ETF1 | -4857.0 |
| MRPL50 | -4848.0 |
| KARS1 | -4640.0 |
| RPL7 | -4473.0 |
| MRPS12 | -4463.0 |
| MTIF2 | -4460.0 |
| EIF2B2 | -4346.0 |
| LARS1 | -4317.0 |
| RPL26L1 | -4159.0 |
| EIF3B | -4157.0 |
| RPL13A | -4097.5 |
| GADD45GIP1 | -4001.0 |
| EIF4A2 | -3743.0 |
| WARS2 | -3717.0 |
| SRP19 | -3500.0 |
| SRP68 | -3488.0 |
| DARS2 | -3468.0 |
| IARS2 | -3455.0 |
| EIF3E | -3449.0 |
| RPS5 | -3417.0 |
| TARS2 | -3196.0 |
| MRPS18B | -3165.0 |
| EIF4B | -3079.0 |
| RPL36AL | -2981.5 |
| EIF2B3 | -2971.0 |
| EIF2B4 | -2952.0 |
| RPL14 | -2908.0 |
| MRPL11 | -2897.0 |
| RPS12 | -2751.0 |
| PPA1 | -2738.0 |
| RPS27A | -2707.0 |
| SARS2 | -2608.0 |
| RPS21 | -2596.0 |
| AARS1 | -2433.0 |
| MRPS10 | -2313.0 |
| MRPS26 | -2275.0 |
| MRPL42 | -2238.0 |
| OXA1L | -2063.0 |
| GFM2 | -2013.0 |
| MRPS18C | -1832.0 |
| EIF5B | -1814.0 |
| RPL10A | -1720.0 |
| EIF3M | -1602.0 |
| RPL24 | -1557.0 |
| MRPL57 | -1219.0 |
| DAP3 | -1107.0 |
| MRPS21 | -1038.0 |
| EIF3D | -955.0 |
| MRPL20 | -903.0 |
| RPL30 | -893.0 |
| FARSA | -848.0 |
| MRPL1 | -656.0 |
| DARS1 | -615.0 |
| EPRS1 | -563.0 |
| GARS1 | -500.0 |
| RPS24 | -456.0 |
| SPCS2 | -431.0 |
| RPL6 | -400.0 |
| MRPL35 | -145.0 |
| MRPL43 | 289.0 |
| RPS15 | 320.0 |
| DDOST | 322.0 |
| FARSB | 512.0 |
| EIF3K | 546.0 |
| RARS1 | 665.0 |
| NARS1 | 757.0 |
| MRPS5 | 771.0 |
| RPS20 | 828.0 |
| EIF2B5 | 1073.0 |
| MRPL44 | 1296.0 |
| IARS1 | 1372.0 |
| SPCS3 | 1398.0 |
| RARS2 | 1507.0 |
| SRP72 | 1723.0 |
| MRRF | 1981.0 |
| MRPS14 | 2184.0 |
| RPL21 | 2253.0 |
| AARS2 | 2415.0 |
| VARS1 | 2490.0 |
| MRPS9 | 2503.0 |
| SRPRA | 2535.0 |
| PPA2 | 2665.0 |
| PTCD3 | 2740.0 |
| EIF5 | 2884.0 |
| MRPL19 | 2954.0 |
| MRPL28 | 3045.0 |
| MRPS25 | 3101.0 |
| EEF1E1 | 3139.0 |
| YARS1 | 3178.0 |
| GFM1 | 3305.0 |
| EEF2 | 3343.0 |
| MRPS35 | 3398.0 |
| RPLP2 | 3532.0 |
| EEF1A2 | 3587.0 |
| RPL31 | 3600.0 |
| TARS1 | 3617.0 |
| TRAM1 | 3828.0 |
| MRPS34 | 3844.0 |
| LARS2 | 4002.0 |
| FARS2 | 4031.0 |
| EIF4G1 | 4214.0 |
| MRPS27 | 4220.0 |
| VARS2 | 4278.0 |
| MRPS2 | 4740.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| MRPS28 | 5122.0 |
| SSR1 | 5709.0 |
| EIF3H | 5737.0 |
| RPL22 | 5772.0 |
| HARS2 | 5843.0 |
| MRPL16 | 5883.0 |
| MRPS22 | 5940.0 |
| MTRF1L | 6007.0 |
| SEC61A2 | 6051.0 |
| EIF3A | 6273.0 |
| RPS23 | 6291.0 |
| PABPC1 | 6426.0 |
| MARS1 | 6440.0 |
| CARS2 | 6451.0 |
| CARS1 | 6686.0 |
| HARS1 | 7013.0 |
| MRPL22 | 7020.0 |
| GSPT1 | 7518.0 |
| APEH | 7771.0 |
| SSR3 | 8045.0 |
| MRPL38 | 8501.0 |
| MRPS6 | 8821.0 |
| RPL3L | 9915.0 |
| EEF1D | 9949.0 |
| RPL10L | 10108.0 |
| MRPL23 | 10125.0 |
| MRPL45 | 11070.0 |
REACTOME_METABOLISM_OF_RNA
| 1313 | |
|---|---|
| set | REACTOME_METABOLISM_OF_RNA |
| setSize | 675 |
| pANOVA | 3.88e-19 |
| s.dist | -0.202 |
| p.adjustANOVA | 3.18e-16 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| ZFP36 | -10684 |
| ZCRB1 | -10430 |
| RPL39L | -10291 |
| RBM8A | -10237 |
| POLR2J | -10179 |
| CDC5L | -10151 |
| PCF11 | -10113 |
| RPL18 | -10087 |
| SEH1L | -10060 |
| PNO1 | -10056 |
| GAR1 | -10039 |
| METTL3 | -10033 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| HSPA8 | -9899 |
| SRSF10 | -9852 |
| POLR2I | -9848 |
| APOBEC3C | -9843 |
| RPL11 | -9821 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| ZFP36 | -10684.0 |
| ZCRB1 | -10430.0 |
| RPL39L | -10291.0 |
| RBM8A | -10237.0 |
| POLR2J | -10179.0 |
| CDC5L | -10151.0 |
| PCF11 | -10113.0 |
| RPL18 | -10087.0 |
| SEH1L | -10060.0 |
| PNO1 | -10056.0 |
| GAR1 | -10039.0 |
| METTL3 | -10033.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| HSPA8 | -9899.0 |
| SRSF10 | -9852.0 |
| POLR2I | -9848.0 |
| APOBEC3C | -9843.0 |
| RPL11 | -9821.0 |
| NUDT21 | -9812.0 |
| RPS6 | -9806.0 |
| FAM32A | -9738.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| TRMT5 | -9652.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| HNRNPA1 | -9569.0 |
| ISY1 | -9568.0 |
| SNRNP25 | -9549.0 |
| RPL28 | -9548.0 |
| XPOT | -9542.0 |
| PSMD13 | -9525.0 |
| RPS18 | -9512.0 |
| SAP18 | -9497.0 |
| UTP4 | -9491.0 |
| RPS26 | -9490.0 |
| APOBEC3H | -9470.0 |
| RPS16 | -9467.0 |
| WBP11 | -9463.0 |
| PAPOLA | -9460.0 |
| RPL3 | -9459.0 |
| NIP7 | -9449.0 |
| EXOSC4 | -9447.0 |
| SNRNP35 | -9443.0 |
| HSPA1A | -9425.0 |
| RNMT | -9412.0 |
| RPS14 | -9401.0 |
| SNRPD2 | -9397.0 |
| HNRNPA3 | -9386.0 |
| A1CF | -9344.0 |
| PRPF38A | -9327.0 |
| NOL11 | -9295.0 |
| GEMIN5 | -9279.0 |
| PSMB8 | -9275.0 |
| NUP42 | -9274.0 |
| RPL9 | -9273.0 |
| EXOSC8 | -9261.0 |
| NUP43 | -9181.0 |
| LTV1 | -9160.0 |
| SRSF1 | -9112.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| PSMA7 | -9081.0 |
| WDR12 | -9062.0 |
| PAIP1 | -9028.0 |
| RPS3A | -8975.0 |
| TRMT6 | -8950.0 |
| MPHOSPH10 | -8949.0 |
| PPP2CA | -8916.0 |
| KRR1 | -8902.0 |
| RNPC3 | -8901.0 |
| IGF2BP1 | -8885.0 |
| PCBP1 | -8864.0 |
| SRSF11 | -8835.0 |
| RPS3 | -8834.0 |
| U2SURP | -8815.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| PSMA3 | -8660.0 |
| RPL32 | -8650.0 |
| WDR36 | -8647.0 |
| NUP107 | -8608.0 |
| FTSJ3 | -8603.0 |
| YBX1 | -8570.0 |
| SNW1 | -8558.0 |
| PRMT5 | -8518.0 |
| GEMIN2 | -8513.0 |
| NSRP1 | -8509.0 |
| DDX20 | -8485.0 |
| RPSA | -8467.0 |
| PSMC5 | -8460.0 |
| YWHAZ | -8450.0 |
| THOC1 | -8436.0 |
| ISG20L2 | -8382.0 |
| CPSF2 | -8363.0 |
| TRMT11 | -8351.0 |
| SNRPA | -8349.0 |
| PSMD4 | -8253.0 |
| SDE2 | -8240.0 |
| WTAP | -8159.0 |
| MAPKAPK2 | -8129.0 |
| DDX39A | -8097.0 |
| UTP3 | -8096.0 |
| TRMT1 | -8087.0 |
| SNRNP48 | -8067.0 |
| THOC3 | -8050.0 |
| DCPS | -8042.0 |
| UBC | -8040.0 |
| SNU13 | -8031.0 |
| CWC15 | -8013.0 |
| SENP3 | -7988.0 |
| LUC7L3 | -7956.0 |
| NUP37 | -7953.0 |
| RTCB | -7933.0 |
| METTL14 | -7932.0 |
| GTPBP3 | -7927.0 |
| TGS1 | -7901.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| IGF2BP2 | -7839.0 |
| RIOK3 | -7837.0 |
| RPS19 | -7779.0 |
| MTO1 | -7755.0 |
| RPS2 | -7738.0 |
| WDR77 | -7737.0 |
| RPL4 | -7711.0 |
| IGF2BP3 | -7707.0 |
| PSMB2 | -7696.0 |
| NUP160 | -7693.0 |
| RPL36 | -7654.0 |
| CLNS1A | -7638.0 |
| DIS3 | -7622.0 |
| SARNP | -7620.5 |
| TRMT13 | -7613.0 |
| EXOSC9 | -7610.0 |
| HNRNPF | -7581.0 |
| WDR3 | -7553.0 |
| SRSF3 | -7539.0 |
| POLR2E | -7485.0 |
| TRMT10C | -7430.0 |
| TRMT12 | -7427.0 |
| RPL41 | -7424.0 |
| TRMT10A | -7417.0 |
| RPS8 | -7382.0 |
| RPPH1 | -7366.0 |
| RPL15 | -7360.0 |
| EFTUD2 | -7349.0 |
| PSME2 | -7342.0 |
| NSUN6 | -7285.0 |
| DDX21 | -7212.0 |
| POP7 | -7177.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| RPS7 | -7130.0 |
| HNRNPM | -7129.0 |
| PSMD7 | -7104.0 |
| RPL37A | -7049.0 |
| RBM22 | -7035.0 |
| LENG1 | -7033.0 |
| RPS15A | -7015.0 |
| LSM6 | -7013.0 |
| BUD31 | -7007.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| SF3B5 | -6915.0 |
| IK | -6869.0 |
| NOP58 | -6845.0 |
| RPL18A | -6838.0 |
| UTP20 | -6830.0 |
| RPL37 | -6792.0 |
| NT5C3B | -6782.0 |
| DDX52 | -6740.0 |
| PSMB9 | -6737.0 |
| ZC3H11A | -6721.0 |
| ADAT2 | -6720.0 |
| PSMC4 | -6700.0 |
| DHX8 | -6691.0 |
| PHAX | -6647.0 |
| HNRNPL | -6643.0 |
| AQR | -6633.0 |
| UBL5 | -6620.0 |
| RIOK2 | -6609.0 |
| HNRNPA2B1 | -6608.0 |
| SNRPG | -6599.0 |
| CPSF6 | -6579.0 |
| NUP50 | -6564.0 |
| SNRPD1 | -6546.0 |
| RBM28 | -6472.0 |
| TRMT112 | -6447.0 |
| PSMA5 | -6442.0 |
| POP1 | -6435.0 |
| NOP2 | -6415.0 |
| RPL8 | -6347.0 |
| GTF2H3 | -6340.0 |
| RPS13 | -6339.0 |
| PSMD11 | -6284.0 |
| GLE1 | -6241.0 |
| RPS27L | -6200.0 |
| RPP40 | -6184.0 |
| PRORP | -6165.0 |
| SNRPD3 | -6155.0 |
| LSM1 | -6054.0 |
| THOC5 | -6040.0 |
| RPL35 | -6032.0 |
| EDC3 | -6027.0 |
| RPL23A | -6024.0 |
| CNOT11 | -6014.0 |
| CSTF3 | -5991.0 |
| PES1 | -5960.0 |
| TYW1 | -5930.0 |
| TRMT61B | -5917.0 |
| SF3B3 | -5896.0 |
| RPL27 | -5884.0 |
| FAM98B | -5878.0 |
| EXOSC5 | -5874.0 |
| SNRNP27 | -5867.0 |
| PRPF40A | -5857.0 |
| RPS11 | -5850.0 |
| RPP14 | -5848.0 |
| SMG9 | -5836.0 |
| XPO1 | -5829.0 |
| CDK7 | -5825.0 |
| ERI1 | -5811.0 |
| SMG1 | -5782.0 |
| RPL29 | -5778.0 |
| SLBP | -5730.0 |
| PAN3 | -5694.0 |
| RPP30 | -5680.0 |
| THOC6 | -5609.0 |
| MTREX | -5589.0 |
| PSME3 | -5547.0 |
| U2AF1L4 | -5492.0 |
| ZFP36L1 | -5485.0 |
| IMP4 | -5402.0 |
| SF3B4 | -5373.0 |
| EIF4E | -5369.0 |
| RPL22L1 | -5348.0 |
| CNOT9 | -5320.0 |
| RPS27 | -5318.0 |
| EIF4A1 | -5317.0 |
| MNAT1 | -5299.0 |
| EXOSC7 | -5281.0 |
| GEMIN6 | -5280.0 |
| SNRPN | -5261.0 |
| PPIL3 | -5249.0 |
| DCAF13 | -5245.0 |
| SET | -5132.0 |
| TRIT1 | -5130.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| BYSL | -5075.0 |
| LSM3 | -5062.0 |
| UBB | -5059.0 |
| NUP153 | -5033.0 |
| UTP6 | -5021.0 |
| DDX46 | -4997.0 |
| THUMPD1 | -4991.0 |
| PRPF4 | -4948.0 |
| APOBEC1 | -4942.0 |
| UBA52 | -4934.0 |
| MFAP1 | -4914.0 |
| CCNH | -4866.0 |
| ETF1 | -4857.0 |
| PSMB10 | -4811.0 |
| SNIP1 | -4809.0 |
| PWP2 | -4798.0 |
| EBNA1BP2 | -4792.0 |
| ZNF830 | -4785.0 |
| RAN | -4756.0 |
| UTP11 | -4720.0 |
| KHSRP | -4714.0 |
| C2orf49 | -4713.0 |
| PSMA6 | -4676.0 |
| SRSF5 | -4675.0 |
| POLR2C | -4652.0 |
| DIMT1 | -4541.0 |
| TSEN34 | -4523.0 |
| LSM5 | -4486.0 |
| UPF2 | -4474.0 |
| RPL7 | -4473.0 |
| PSMD9 | -4450.0 |
| DDX5 | -4382.0 |
| TPRKB | -4237.0 |
| THG1L | -4219.0 |
| CWC22 | -4196.0 |
| RPL26L1 | -4159.0 |
| USP39 | -4155.0 |
| RPL13A | -4097.5 |
| SNRPA1 | -4090.0 |
| PHF5A | -4072.0 |
| PNRC2 | -4037.0 |
| RBM7 | -3943.0 |
| DDX6 | -3897.0 |
| CSTF2T | -3889.0 |
| SMG6 | -3885.0 |
| NOP10 | -3800.0 |
| PSMD5 | -3781.0 |
| POLDIP3 | -3769.0 |
| CWC27 | -3756.0 |
| HNRNPD | -3747.0 |
| EIF4A2 | -3743.0 |
| BUD23 | -3741.0 |
| POLR2F | -3657.0 |
| SMG7 | -3652.0 |
| DDX49 | -3571.0 |
| TRNT1 | -3518.0 |
| PDCD11 | -3494.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| NUP155 | -3436.0 |
| RPS5 | -3417.0 |
| LSM10 | -3403.0 |
| RPP38 | -3394.0 |
| DDX41 | -3384.0 |
| C9orf78 | -3381.0 |
| PSMD6 | -3380.0 |
| SRSF2 | -3347.0 |
| YJU2 | -3304.0 |
| PSMB4 | -3285.0 |
| MAGOHB | -3262.0 |
| TRMT9B | -3259.0 |
| DCP2 | -3244.0 |
| CWF19L2 | -3221.0 |
| ZMAT5 | -3127.0 |
| GTF2H5 | -3090.0 |
| PSMC3 | -3081.0 |
| EIF4B | -3079.0 |
| PPIE | -3077.0 |
| CWC25 | -3009.0 |
| SF3A1 | -2995.0 |
| RPL36AL | -2981.5 |
| RBM25 | -2917.0 |
| SKIC3 | -2913.0 |
| RPL14 | -2908.0 |
| TPR | -2890.0 |
| SMG8 | -2884.0 |
| WDR43 | -2876.0 |
| SNUPN | -2855.0 |
| ZBTB8OS | -2838.0 |
| DCP1A | -2752.0 |
| RPS12 | -2751.0 |
| SMG5 | -2746.0 |
| ZNF473 | -2744.0 |
| POLR2H | -2710.0 |
| RPS27A | -2707.0 |
| XRN1 | -2644.0 |
| PTBP1 | -2639.0 |
| NOL9 | -2622.0 |
| UTP15 | -2599.0 |
| RPS21 | -2596.0 |
| SF3A3 | -2560.0 |
| SNRNP70 | -2548.0 |
| RBM42 | -2524.0 |
| RTRAF | -2518.0 |
| EMG1 | -2504.0 |
| NUP85 | -2443.0 |
| SRSF8 | -2167.0 |
| CNOT8 | -2122.0 |
| TYW5 | -2082.0 |
| NOL12 | -2030.0 |
| HNRNPU | -2019.0 |
| DHX35 | -2006.0 |
| WBP4 | -1992.0 |
| TRDMT1 | -1944.0 |
| PAN2 | -1913.0 |
| NUP98 | -1888.0 |
| PELP1 | -1844.0 |
| PPP1R8 | -1842.0 |
| RBM39 | -1826.0 |
| PLRG1 | -1820.0 |
| PSMB6 | -1764.0 |
| CPSF3 | -1733.0 |
| WDR33 | -1722.0 |
| RPL10A | -1720.0 |
| DNAJC8 | -1714.0 |
| PRKCA | -1685.0 |
| SNRNP40 | -1675.0 |
| DDX39B | -1629.0 |
| POLR2G | -1573.0 |
| RPL24 | -1557.0 |
| SMU1 | -1536.0 |
| SRSF9 | -1510.0 |
| SF3B1 | -1499.0 |
| NXT1 | -1374.0 |
| CPSF7 | -1371.0 |
| SYF2 | -1342.0 |
| SNRPF | -1314.0 |
| UPF3A | -1262.0 |
| APOBEC3B | -1255.0 |
| WDR46 | -1237.0 |
| TRA2B | -1197.0 |
| RBM17 | -1151.0 |
| CNOT2 | -1100.0 |
| PPIH | -1067.0 |
| PSMC6 | -1062.0 |
| SNRPB2 | -922.0 |
| MAPK11 | -896.0 |
| RPL30 | -893.0 |
| WDR75 | -882.0 |
| SF3B2 | -881.0 |
| DDX1 | -847.0 |
| CCDC12 | -844.0 |
| NXF1 | -751.0 |
| PPP2R2A | -748.0 |
| LSM4 | -734.0 |
| LSM11 | -652.0 |
| TFB1M | -625.0 |
| POLR2K | -624.0 |
| TXNL4A | -621.0 |
| PABPN1 | -616.0 |
| DDX23 | -601.0 |
| MPHOSPH6 | -565.0 |
| EPRS1 | -563.0 |
| PATL1 | -496.0 |
| PRPF31 | -470.0 |
| RPS24 | -456.0 |
| WDR18 | -415.0 |
| TSR1 | -401.0 |
| RPL6 | -400.0 |
| PRKRIP1 | -379.0 |
| POLR2L | -372.0 |
| TNKS1BP1 | -311.0 |
| NUP58 | -237.0 |
| NOL6 | -193.0 |
| BUD13 | -181.0 |
| RPP25 | -90.0 |
| PUS1 | -60.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| QTRT1 | 62.0 |
| SEC13 | 66.0 |
| PUS7 | 76.0 |
| TNPO1 | 112.0 |
| SLU7 | 114.0 |
| LSM2 | 156.0 |
| CDC40 | 172.0 |
| TSEN15 | 196.0 |
| PPIG | 217.0 |
| SRSF7 | 284.0 |
| PSMA1 | 296.0 |
| CNOT7 | 309.0 |
| RPS15 | 320.0 |
| CNOT4 | 324.0 |
| IMP3 | 348.0 |
| PNN | 385.0 |
| NUP35 | 446.0 |
| LSM8 | 468.0 |
| DDX42 | 528.0 |
| CRNKL1 | 530.0 |
| DHX15 | 644.0 |
| TP53RK | 648.0 |
| NCL | 719.0 |
| DDX47 | 742.0 |
| FBL | 791.0 |
| RIOK1 | 805.0 |
| RPS20 | 828.0 |
| CCAR1 | 909.0 |
| SF3A2 | 917.0 |
| PARN | 927.0 |
| HNRNPK | 936.0 |
| CHTOP | 948.0 |
| UTP25 | 951.0 |
| NOP14 | 997.0 |
| ALKBH8 | 1030.0 |
| ERCC2 | 1041.0 |
| APOBEC3A | 1049.0 |
| MRM3 | 1081.0 |
| DUS2 | 1110.0 |
| SMNDC1 | 1137.0 |
| NCBP1 | 1140.0 |
| FIP1L1 | 1178.0 |
| PRCC | 1204.0 |
| TSEN54 | 1241.0 |
| ACIN1 | 1244.0 |
| DHX38 | 1248.0 |
| NUP88 | 1334.0 |
| NDC1 | 1422.0 |
| PSMB7 | 1455.0 |
| RRP1 | 1505.0 |
| NUP214 | 1526.0 |
| PSME4 | 1583.0 |
| NSUN4 | 1611.0 |
| PSMB5 | 1628.0 |
| RRP7A | 1645.0 |
| PDCD7 | 1682.0 |
| ADAT1 | 1683.0 |
| OSGEP | 1748.0 |
| FYTTD1 | 1764.0 |
| ANP32A | 1767.0 |
| CNOT10 | 1780.0 |
| POM121C | 1782.0 |
| YWHAB | 1794.0 |
| RBM5 | 1838.0 |
| EXOSC3 | 1939.0 |
| CDKAL1 | 2036.0 |
| GEMIN7 | 2106.0 |
| GTF2H1 | 2125.0 |
| TNFSF13 | 2164.0 |
| CLP1 | 2178.0 |
| ALYREF | 2245.0 |
| RPL21 | 2253.0 |
| RNGTT | 2283.0 |
| NUP188 | 2308.0 |
| ADAR | 2422.0 |
| RPP21 | 2423.0 |
| FCF1 | 2447.0 |
| CNOT6L | 2515.0 |
| HBS1L | 2566.0 |
| CTU1 | 2604.0 |
| UPF1 | 2626.0 |
| GCFC2 | 2667.0 |
| SRRT | 2712.0 |
| NCBP2 | 2717.0 |
| TCERG1 | 2768.0 |
| CNOT6 | 2866.0 |
| ADARB1 | 2881.0 |
| NUP54 | 2991.0 |
| SF1 | 3041.0 |
| MAGOH | 3043.0 |
| C1D | 3116.0 |
| PRPF19 | 3222.0 |
| NUP133 | 3395.0 |
| NUP62 | 3527.0 |
| RPLP2 | 3532.0 |
| SNRPC | 3554.0 |
| SRSF6 | 3596.0 |
| RPL31 | 3600.0 |
| ZMAT2 | 3667.0 |
| NOC4L | 3672.0 |
| UTP18 | 3711.0 |
| SUGP1 | 3735.0 |
| HNRNPC | 3774.0 |
| METTL1 | 3803.0 |
| PCBP2 | 3870.0 |
| PRPF3 | 3877.0 |
| WDR70 | 3897.0 |
| GTF2F1 | 3903.0 |
| CNOT1 | 3915.0 |
| PPIL1 | 3924.0 |
| GTF2F2 | 3988.0 |
| PPWD1 | 4075.0 |
| PUS3 | 4087.0 |
| CASC3 | 4135.0 |
| LCMT2 | 4148.0 |
| EIF4G1 | 4214.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| RAE1 | 4292.0 |
| GPATCH1 | 4300.0 |
| TUT7 | 4332.0 |
| SMN1 | 4401.5 |
| SMN2 | 4401.5 |
| MRM2 | 4497.0 |
| THOC7 | 4498.0 |
| EXOSC1 | 4509.0 |
| NUP93 | 4585.0 |
| AAAS | 4604.0 |
| RNPS1 | 4625.0 |
| HSPB1 | 4649.0 |
| RPL19 | 4741.0 |
| CSNK1D | 4765.0 |
| RPS25 | 4809.0 |
| MAPK14 | 4829.0 |
| FUS | 4914.0 |
| PRPF18 | 4952.0 |
| PSMD1 | 5004.0 |
| POP5 | 5095.0 |
| ELAC2 | 5131.0 |
| APOBEC4 | 5151.0 |
| SRSF4 | 5167.0 |
| POLR2D | 5189.0 |
| SRRM2 | 5217.0 |
| NUP205 | 5228.0 |
| PSMF1 | 5263.0 |
| CSTF1 | 5309.0 |
| MRM1 | 5325.0 |
| MTERF4 | 5356.0 |
| BMS1 | 5397.0 |
| DCP1B | 5398.0 |
| BCAS2 | 5488.0 |
| SRRM1 | 5510.0 |
| HNRNPR | 5524.0 |
| RCL1 | 5564.0 |
| TYW3 | 5605.0 |
| DHX16 | 5615.0 |
| POLR2B | 5721.0 |
| GTF2H4 | 5742.0 |
| RRP9 | 5743.0 |
| RRP36 | 5760.0 |
| RPL22 | 5772.0 |
| RANBP2 | 5895.0 |
| SNRPB | 5980.0 |
| PRKCD | 5998.0 |
| EXOSC6 | 6019.0 |
| PPIL4 | 6060.0 |
| PRPF6 | 6065.0 |
| SNRPE | 6152.0 |
| CHERP | 6194.0 |
| XRN2 | 6268.0 |
| RPS23 | 6291.0 |
| DHX9 | 6346.0 |
| PABPC1 | 6426.0 |
| DHX37 | 6460.0 |
| CACTIN | 6468.0 |
| GNL3 | 6513.0 |
| TFIP11 | 6515.0 |
| TSEN2 | 6535.0 |
| LSM7 | 6575.0 |
| SNRNP200 | 6580.0 |
| WDR4 | 6601.0 |
| POP4 | 6608.0 |
| HNRNPH1 | 6766.0 |
| PSMD12 | 6808.0 |
| POLR2A | 7019.0 |
| PSME1 | 7056.0 |
| POM121 | 7060.0 |
| SUPT5H | 7080.0 |
| EIF4A3 | 7144.0 |
| TUT4 | 7262.0 |
| CTNNBL1 | 7396.0 |
| ADAT3 | 7408.0 |
| EXOSC10 | 7462.0 |
| XAB2 | 7472.0 |
| GSPT1 | 7518.0 |
| NHP2 | 7554.0 |
| EXOSC2 | 7600.0 |
| NOP56 | 7677.0 |
| HEATR1 | 7729.0 |
| PPIL2 | 7752.0 |
| TEX10 | 7828.0 |
| NSUN2 | 7922.0 |
| AKT1 | 7961.0 |
| PSMA8 | 8011.0 |
| THADA | 8063.0 |
| CTU2 | 8100.0 |
| SART1 | 8131.0 |
| CPSF1 | 8200.0 |
| TRMT61A | 8209.0 |
| PSMD14 | 8243.0 |
| PRPF8 | 8244.0 |
| CPSF4 | 8260.0 |
| CNOT3 | 8263.0 |
| GEMIN4 | 8340.0 |
| QTRT2 | 8344.0 |
| TSR3 | 8393.0 |
| PUF60 | 8431.0 |
| U2AF2 | 8519.0 |
| SRSF12 | 8610.0 |
| NOB1 | 8627.0 |
| PPP2R1A | 8649.0 |
| SKIC8 | 8662.0 |
| ERCC3 | 8718.0 |
| TRMU | 8838.0 |
| BOP1 | 8867.0 |
| CSNK1E | 9055.0 |
| ELAVL1 | 9056.0 |
| SF3B6 | 9215.0 |
| URM1 | 9299.0 |
| SYMPK | 9413.0 |
| PSMD8 | 9422.0 |
| NUP210 | 9431.0 |
| NAT10 | 9713.0 |
| SKIC2 | 9825.0 |
| TBL3 | 9872.0 |
| PSMD2 | 9891.0 |
| RPL3L | 9915.0 |
| TRMT44 | 9975.0 |
| RPL10L | 10108.0 |
| EDC4 | 10247.0 |
| APOBEC2 | 10412.0 |
| PSMB11 | 10612.0 |
| UTP14C | 10711.0 |
REACTOME_SRP_DEPENDENT_COTRANSLATIONAL_PROTEIN_TARGETING_TO_MEMBRANE
| 271 | |
|---|---|
| set | REACTOME_SRP_DEPENDENT_COTRANSLATIONAL_PROTEIN_TARGETING_TO_MEMBRANE |
| setSize | 105 |
| pANOVA | 7.75e-16 |
| s.dist | -0.455 |
| p.adjustANOVA | 3.99e-13 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| SPCS1 | -10221 |
| SSR2 | -10153 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| SEC11C | -9480 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| SPCS1 | -10221.0 |
| SSR2 | -10153.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| SEC11C | -9480.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| SEC61B | -9301.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| SEC11A | -8337.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| SRPRB | -7364.0 |
| RPL15 | -7360.0 |
| RPN1 | -7172.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| SRP14 | -6917.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| SRP9 | -6783.0 |
| SEC61G | -6441.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPN2 | -6204.0 |
| RPS27L | -6200.0 |
| SRP54 | -6106.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| RPL29 | -5778.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| SEC61A1 | -4963.0 |
| UBA52 | -4934.0 |
| RPL7 | -4473.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| SRP19 | -3500.0 |
| SRP68 | -3488.0 |
| RPS5 | -3417.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| RPL30 | -893.0 |
| RPS24 | -456.0 |
| SPCS2 | -431.0 |
| RPL6 | -400.0 |
| RPS15 | 320.0 |
| DDOST | 322.0 |
| RPS20 | 828.0 |
| SPCS3 | 1398.0 |
| SRP72 | 1723.0 |
| RPL21 | 2253.0 |
| SRPRA | 2535.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| TRAM1 | 3828.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| SSR1 | 5709.0 |
| RPL22 | 5772.0 |
| SEC61A2 | 6051.0 |
| RPS23 | 6291.0 |
| SSR3 | 8045.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
REACTOME_EUKARYOTIC_TRANSLATION_INITIATION
| 1149 | |
|---|---|
| set | REACTOME_EUKARYOTIC_TRANSLATION_INITIATION |
| setSize | 110 |
| pANOVA | 9.72e-16 |
| s.dist | -0.443 |
| p.adjustANOVA | 3.99e-13 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| EIF3G | -10319 |
| RPL39L | -10291 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
| EIF3F | -9276 |
| RPL9 | -9273 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| EIF3G | -10319.0 |
| RPL39L | -10291.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| EIF3F | -9276.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| EIF3J | -8418.0 |
| EIF2S1 | -8073.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| EIF2B1 | -7695.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| EIF3I | -6950.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| EIF2S2 | -6392.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| EIF3L | -6206.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| EIF4H | -5819.0 |
| RPL29 | -5778.0 |
| EIF4E | -5369.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| EIF4A1 | -5317.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| EIF4EBP1 | -5052.0 |
| UBA52 | -4934.0 |
| RPL7 | -4473.0 |
| EIF2B2 | -4346.0 |
| RPL26L1 | -4159.0 |
| EIF3B | -4157.0 |
| RPL13A | -4097.5 |
| EIF4A2 | -3743.0 |
| EIF3E | -3449.0 |
| RPS5 | -3417.0 |
| EIF4B | -3079.0 |
| RPL36AL | -2981.5 |
| EIF2B3 | -2971.0 |
| EIF2B4 | -2952.0 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| EIF5B | -1814.0 |
| RPL10A | -1720.0 |
| EIF3M | -1602.0 |
| RPL24 | -1557.0 |
| EIF3D | -955.0 |
| RPL30 | -893.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| RPS15 | 320.0 |
| EIF3K | 546.0 |
| RPS20 | 828.0 |
| EIF2B5 | 1073.0 |
| RPL21 | 2253.0 |
| EIF5 | 2884.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| EIF4G1 | 4214.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| EIF3H | 5737.0 |
| RPL22 | 5772.0 |
| EIF3A | 6273.0 |
| RPS23 | 6291.0 |
| PABPC1 | 6426.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
REACTOME_EUKARYOTIC_TRANSLATION_ELONGATION
| 151 | |
|---|---|
| set | REACTOME_EUKARYOTIC_TRANSLATION_ELONGATION |
| setSize | 87 |
| pANOVA | 2.36e-14 |
| s.dist | -0.473 |
| p.adjustANOVA | 7.76e-12 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| EEF1G | -9803 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| EEF1B2 | -9504 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
| RPL9 | -9273 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| EEF1G | -9803.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| EEF1B2 | -9504.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| EEF1A1 | -5856.0 |
| RPS11 | -5850.0 |
| RPL29 | -5778.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| UBA52 | -4934.0 |
| RPL7 | -4473.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| RPS5 | -3417.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| RPL30 | -893.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| RPL21 | 2253.0 |
| EEF2 | 3343.0 |
| RPLP2 | 3532.0 |
| EEF1A2 | 3587.0 |
| RPL31 | 3600.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| RPL22 | 5772.0 |
| RPS23 | 6291.0 |
| RPL3L | 9915.0 |
| EEF1D | 9949.0 |
| RPL10L | 10108.0 |
REACTOME_RESPONSE_OF_EIF2AK4_GCN2_TO_AMINO_ACID_DEFICIENCY
| 1486 | |
|---|---|
| set | REACTOME_RESPONSE_OF_EIF2AK4_GCN2_TO_AMINO_ACID_DEFICIENCY |
| setSize | 94 |
| pANOVA | 1.44e-13 |
| s.dist | -0.441 |
| p.adjustANOVA | 3.93e-11 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
| RPL9 | -9273 |
| RPL5 | -9093 |
| RPS10 | -9091 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| CEBPB | -8501.0 |
| RPSA | -8467.0 |
| EIF2S1 | -8073.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| DDIT3 | -7249.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| EIF2S2 | -6392.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| ATF2 | -5831.0 |
| RPL29 | -5778.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| UBA52 | -4934.0 |
| RPL7 | -4473.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| RPS5 | -3417.0 |
| CEBPG | -3078.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| ATF4 | -1852.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| RPL30 | -893.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| RPL21 | 2253.0 |
| ATF3 | 3315.0 |
| RPLP2 | 3532.0 |
| EIF2AK4 | 3594.0 |
| RPL31 | 3600.0 |
| TRIB3 | 3731.0 |
| GCN1 | 4487.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| RPL22 | 5772.0 |
| ASNS | 5979.0 |
| RPS23 | 6291.0 |
| IMPACT | 9568.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
REACTOME_INFLUENZA_INFECTION
| 228 | |
|---|---|
| set | REACTOME_INFLUENZA_INFECTION |
| setSize | 149 |
| pANOVA | 1.92e-13 |
| s.dist | -0.349 |
| p.adjustANOVA | 4.5e-11 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| POLR2J | -10179 |
| RPL18 | -10087 |
| SEH1L | -10060 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| POLR2I | -9848 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| HSPA1A | -9425 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| POLR2J | -10179.0 |
| RPL18 | -10087.0 |
| SEH1L | -10060.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| POLR2I | -9848.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| HSPA1A | -9425.0 |
| RPS14 | -9401.0 |
| NUP42 | -9274.0 |
| RPL9 | -9273.0 |
| NUP43 | -9181.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| NUP107 | -8608.0 |
| RPSA | -8467.0 |
| ISG15 | -8165.0 |
| NUP37 | -7953.0 |
| CLTA | -7950.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| KPNA4 | -7797.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| NUP160 | -7693.0 |
| RPL36 | -7654.0 |
| PARP1 | -7536.0 |
| CALR | -7509.0 |
| POLR2E | -7485.0 |
| KPNB1 | -7455.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| TGFB1 | -6722.0 |
| NUP50 | -6564.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| XPO1 | -5829.0 |
| RPL29 | -5778.0 |
| CANX | -5651.0 |
| HSP90AA1 | -5595.0 |
| KPNA1 | -5353.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| NUP153 | -5033.0 |
| UBA52 | -4934.0 |
| RAN | -4756.0 |
| POLR2C | -4652.0 |
| RPL7 | -4473.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| GRSF1 | -4077.0 |
| POLR2F | -3657.0 |
| NUP155 | -3436.0 |
| RPS5 | -3417.0 |
| CLTC | -3396.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| TPR | -2890.0 |
| RPS12 | -2751.0 |
| POLR2H | -2710.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| KPNA5 | -2456.0 |
| NUP85 | -2443.0 |
| NUP98 | -1888.0 |
| RPL10A | -1720.0 |
| POLR2G | -1573.0 |
| RPL24 | -1557.0 |
| RPL30 | -893.0 |
| IPO5 | -800.0 |
| POLR2K | -624.0 |
| PABPN1 | -616.0 |
| DNAJC3 | -592.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| KPNA7 | -385.0 |
| POLR2L | -372.0 |
| NUP58 | -237.0 |
| SEC13 | 66.0 |
| RPS15 | 320.0 |
| NUP35 | 446.0 |
| RPS20 | 828.0 |
| NUP88 | 1334.0 |
| NDC1 | 1422.0 |
| NUP214 | 1526.0 |
| POM121C | 1782.0 |
| RPL21 | 2253.0 |
| NUP188 | 2308.0 |
| NUP54 | 2991.0 |
| KPNA2 | 3004.0 |
| EIF2AK2 | 3299.0 |
| KPNA3 | 3312.0 |
| NUP133 | 3395.0 |
| NUP62 | 3527.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| GTF2F1 | 3903.0 |
| GTF2F2 | 3988.0 |
| RAE1 | 4292.0 |
| NUP93 | 4585.0 |
| AAAS | 4604.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| POLR2D | 5189.0 |
| NUP205 | 5228.0 |
| POLR2B | 5721.0 |
| RPL22 | 5772.0 |
| RANBP2 | 5895.0 |
| RPS23 | 6291.0 |
| POLR2A | 7019.0 |
| POM121 | 7060.0 |
| CPSF4 | 8260.0 |
| NUP210 | 9431.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
REACTOME_RRNA_PROCESSING
| 1148 | |
|---|---|
| set | REACTOME_RRNA_PROCESSING |
| setSize | 192 |
| pANOVA | 1.24e-12 |
| s.dist | -0.297 |
| p.adjustANOVA | 2.54e-10 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| RPL18 | -10087 |
| PNO1 | -10056 |
| GAR1 | -10039 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| UTP4 | -9491 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| NIP7 | -9449 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| RPL18 | -10087.0 |
| PNO1 | -10056.0 |
| GAR1 | -10039.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| UTP4 | -9491.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| NIP7 | -9449.0 |
| EXOSC4 | -9447.0 |
| RPS14 | -9401.0 |
| NOL11 | -9295.0 |
| RPL9 | -9273.0 |
| EXOSC8 | -9261.0 |
| LTV1 | -9160.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| WDR12 | -9062.0 |
| RPS3A | -8975.0 |
| MPHOSPH10 | -8949.0 |
| KRR1 | -8902.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| WDR36 | -8647.0 |
| FTSJ3 | -8603.0 |
| RPSA | -8467.0 |
| ISG20L2 | -8382.0 |
| UTP3 | -8096.0 |
| SNU13 | -8031.0 |
| SENP3 | -7988.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RIOK3 | -7837.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| DIS3 | -7622.0 |
| EXOSC9 | -7610.0 |
| WDR3 | -7553.0 |
| TRMT10C | -7430.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| DDX21 | -7212.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| NOP58 | -6845.0 |
| RPL18A | -6838.0 |
| UTP20 | -6830.0 |
| RPL37 | -6792.0 |
| DDX52 | -6740.0 |
| RIOK2 | -6609.0 |
| RBM28 | -6472.0 |
| TRMT112 | -6447.0 |
| NOP2 | -6415.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| RPP40 | -6184.0 |
| PRORP | -6165.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| PES1 | -5960.0 |
| RPL27 | -5884.0 |
| EXOSC5 | -5874.0 |
| RPS11 | -5850.0 |
| RPP14 | -5848.0 |
| ERI1 | -5811.0 |
| RPL29 | -5778.0 |
| RPP30 | -5680.0 |
| MTREX | -5589.0 |
| IMP4 | -5402.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| EXOSC7 | -5281.0 |
| DCAF13 | -5245.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| BYSL | -5075.0 |
| UTP6 | -5021.0 |
| THUMPD1 | -4991.0 |
| UBA52 | -4934.0 |
| PWP2 | -4798.0 |
| EBNA1BP2 | -4792.0 |
| UTP11 | -4720.0 |
| DIMT1 | -4541.0 |
| RPL7 | -4473.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| NOP10 | -3800.0 |
| BUD23 | -3741.0 |
| DDX49 | -3571.0 |
| PDCD11 | -3494.0 |
| RPS5 | -3417.0 |
| RPP38 | -3394.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| WDR43 | -2876.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| NOL9 | -2622.0 |
| UTP15 | -2599.0 |
| RPS21 | -2596.0 |
| EMG1 | -2504.0 |
| NOL12 | -2030.0 |
| PELP1 | -1844.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| WDR46 | -1237.0 |
| RPL30 | -893.0 |
| WDR75 | -882.0 |
| TFB1M | -625.0 |
| MPHOSPH6 | -565.0 |
| RPS24 | -456.0 |
| WDR18 | -415.0 |
| TSR1 | -401.0 |
| RPL6 | -400.0 |
| NOL6 | -193.0 |
| RPP25 | -90.0 |
| RPS15 | 320.0 |
| IMP3 | 348.0 |
| NCL | 719.0 |
| DDX47 | 742.0 |
| FBL | 791.0 |
| RIOK1 | 805.0 |
| RPS20 | 828.0 |
| UTP25 | 951.0 |
| NOP14 | 997.0 |
| MRM3 | 1081.0 |
| RRP1 | 1505.0 |
| NSUN4 | 1611.0 |
| RRP7A | 1645.0 |
| EXOSC3 | 1939.0 |
| RPL21 | 2253.0 |
| RPP21 | 2423.0 |
| FCF1 | 2447.0 |
| C1D | 3116.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| NOC4L | 3672.0 |
| UTP18 | 3711.0 |
| MRM2 | 4497.0 |
| EXOSC1 | 4509.0 |
| RPL19 | 4741.0 |
| CSNK1D | 4765.0 |
| RPS25 | 4809.0 |
| ELAC2 | 5131.0 |
| MRM1 | 5325.0 |
| MTERF4 | 5356.0 |
| BMS1 | 5397.0 |
| RCL1 | 5564.0 |
| RRP9 | 5743.0 |
| RRP36 | 5760.0 |
| RPL22 | 5772.0 |
| EXOSC6 | 6019.0 |
| XRN2 | 6268.0 |
| RPS23 | 6291.0 |
| DHX37 | 6460.0 |
| GNL3 | 6513.0 |
| EXOSC10 | 7462.0 |
| NHP2 | 7554.0 |
| EXOSC2 | 7600.0 |
| NOP56 | 7677.0 |
| HEATR1 | 7729.0 |
| TEX10 | 7828.0 |
| TSR3 | 8393.0 |
| NOB1 | 8627.0 |
| BOP1 | 8867.0 |
| CSNK1E | 9055.0 |
| NAT10 | 9713.0 |
| TBL3 | 9872.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
| UTP14C | 10711.0 |
REACTOME_NONSENSE_MEDIATED_DECAY_NMD
| 1443 | |
|---|---|
| set | REACTOME_NONSENSE_MEDIATED_DECAY_NMD |
| setSize | 107 |
| pANOVA | 2.43e-12 |
| s.dist | -0.392 |
| p.adjustANOVA | 4.43e-10 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| RBM8A | -10237 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
| RPL9 | -9273 |
| RPL5 | -9093 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| RBM8A | -10237.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| PPP2CA | -8916.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| SMG9 | -5836.0 |
| SMG1 | -5782.0 |
| RPL29 | -5778.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| UBA52 | -4934.0 |
| ETF1 | -4857.0 |
| UPF2 | -4474.0 |
| RPL7 | -4473.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| PNRC2 | -4037.0 |
| SMG6 | -3885.0 |
| SMG7 | -3652.0 |
| RPS5 | -3417.0 |
| MAGOHB | -3262.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| SMG8 | -2884.0 |
| DCP1A | -2752.0 |
| RPS12 | -2751.0 |
| SMG5 | -2746.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| UPF3A | -1262.0 |
| RPL30 | -893.0 |
| PPP2R2A | -748.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| NCBP1 | 1140.0 |
| RPL21 | 2253.0 |
| UPF1 | 2626.0 |
| NCBP2 | 2717.0 |
| MAGOH | 3043.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| CASC3 | 4135.0 |
| EIF4G1 | 4214.0 |
| RNPS1 | 4625.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| RPL22 | 5772.0 |
| RPS23 | 6291.0 |
| PABPC1 | 6426.0 |
| EIF4A3 | 7144.0 |
| GSPT1 | 7518.0 |
| PPP2R1A | 8649.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
REACTOME_REGULATION_OF_EXPRESSION_OF_SLITS_AND_ROBOS
| 1364 | |
|---|---|
| set | REACTOME_REGULATION_OF_EXPRESSION_OF_SLITS_AND_ROBOS |
| setSize | 161 |
| pANOVA | 1.2e-10 |
| s.dist | -0.294 |
| p.adjustANOVA | 1.97e-08 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| RBM8A | -10237 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| PSMD13 | -9525 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
| PSMB8 | -9275 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| RBM8A | -10237.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| PSMD13 | -9525.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| PSMB8 | -9275.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| PSMA7 | -9081.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| PSMA3 | -8660.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| PSMC5 | -8460.0 |
| PSMD4 | -8253.0 |
| HOXA2 | -8170.0 |
| UBC | -8040.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| PSMB2 | -7696.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| PSME2 | -7342.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| RPS7 | -7130.0 |
| PSMD7 | -7104.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| PSMB9 | -6737.0 |
| PSMC4 | -6700.0 |
| PSMA5 | -6442.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| PSMD11 | -6284.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| RPL29 | -5778.0 |
| PSME3 | -5547.0 |
| ROBO1 | -5453.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| LDB1 | -5289.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| UBB | -5059.0 |
| UBA52 | -4934.0 |
| ETF1 | -4857.0 |
| PSMB10 | -4811.0 |
| PSMA6 | -4676.0 |
| UPF2 | -4474.0 |
| RPL7 | -4473.0 |
| PSMD9 | -4450.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| PSMD5 | -3781.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| RPS5 | -3417.0 |
| PSMD6 | -3380.0 |
| PSMB4 | -3285.0 |
| MAGOHB | -3262.0 |
| RBX1 | -3208.0 |
| PSMC3 | -3081.0 |
| ISL1 | -2988.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| LHX9 | -2533.0 |
| ROBO2 | -2178.0 |
| USP33 | -2101.0 |
| PSMB6 | -1764.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| MSI1 | -1508.0 |
| UPF3A | -1262.0 |
| PSMC6 | -1062.0 |
| RPL30 | -893.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| PSMA1 | 296.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| NCBP1 | 1140.0 |
| ROBO3 | 1249.0 |
| PSMB7 | 1455.0 |
| ELOC | 1468.0 |
| PSME4 | 1583.0 |
| PSMB5 | 1628.0 |
| SLIT2 | 1798.0 |
| LHX2 | 1920.0 |
| SLIT1 | 2136.0 |
| LHX4 | 2151.0 |
| RPL21 | 2253.0 |
| NCBP2 | 2717.0 |
| MAGOH | 3043.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| CASC3 | 4135.0 |
| LHX3 | 4164.0 |
| EIF4G1 | 4214.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| CUL2 | 4451.0 |
| RNPS1 | 4625.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| PSMD1 | 5004.0 |
| ELOB | 5112.0 |
| PSMF1 | 5263.0 |
| RPL22 | 5772.0 |
| RPS23 | 6291.0 |
| PABPC1 | 6426.0 |
| PSMD12 | 6808.0 |
| PSME1 | 7056.0 |
| EIF4A3 | 7144.0 |
| GSPT1 | 7518.0 |
| PSMA8 | 8011.0 |
| PSMD14 | 8243.0 |
| DAG1 | 8601.0 |
| PSMD8 | 9422.0 |
| ZSWIM8 | 9838.0 |
| PSMD2 | 9891.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
| PSMB11 | 10612.0 |
REACTOME_B_WICH_COMPLEX_POSITIVELY_REGULATES_RRNA_EXPRESSION
| 852 | |
|---|---|
| set | REACTOME_B_WICH_COMPLEX_POSITIVELY_REGULATES_RRNA_EXPRESSION |
| setSize | 84 |
| pANOVA | 2.49e-10 |
| s.dist | -0.399 |
| p.adjustANOVA | 3.7e-08 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| POLR1H | -8215.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| DDX21 | -7212.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| GSK3B | -6981.0 |
| H2BC11 | -6443.0 |
| POLR1C | -6163.0 |
| H3C8 | -5893.0 |
| POLR1G | -5845.0 |
| H2AJ | -5812.0 |
| KAT2B | -5664.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| SMARCA5 | -4808.0 |
| H2BC8 | -4740.0 |
| POLR1F | -4737.0 |
| BAZ1B | -4618.0 |
| H2AX | -4613.0 |
| POLR1B | -4549.0 |
| EP300 | -4543.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| POLR2H | -2710.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| SF3B1 | -1499.0 |
| POLR1D | -1301.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| KAT2A | -148.0 |
| MYO1C | 544.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| POLR1A | 2501.0 |
| ERCC6 | 3768.0 |
| H2AC6 | 3867.0 |
| DEK | 3890.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| H3C12 | 6531.0 |
| MYBBP1A | 6607.0 |
| H3C2 | 7476.0 |
| TAF1C | 8532.0 |
| H4C13 | 8916.0 |
REACTOME_SELENOAMINO_ACID_METABOLISM
| 484 | |
|---|---|
| set | REACTOME_SELENOAMINO_ACID_METABOLISM |
| setSize | 108 |
| pANOVA | 2.71e-10 |
| s.dist | -0.352 |
| p.adjustANOVA | 3.7e-08 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| MAT1A | -10220 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| AIMP1 | -9776 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
| RPL9 | -9273 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| MAT1A | -10220.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| AIMP1 | -9776.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| AIMP2 | -8156.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| RPL29 | -5778.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| UBA52 | -4934.0 |
| KARS1 | -4640.0 |
| RPL7 | -4473.0 |
| LARS1 | -4317.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| PSTK | -3525.0 |
| RPS5 | -3417.0 |
| RPL36AL | -2981.5 |
| RPL14 | -2908.0 |
| TXNRD1 | -2861.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| SEPSECS | -1796.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| CTH | -1195.0 |
| SEPHS2 | -1156.0 |
| RPL30 | -893.0 |
| DARS1 | -615.0 |
| EPRS1 | -563.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| RPS15 | 320.0 |
| RARS1 | 665.0 |
| RPS20 | 828.0 |
| AHCY | 1257.0 |
| IARS1 | 1372.0 |
| RPL21 | 2253.0 |
| NNMT | 3115.0 |
| EEF1E1 | 3139.0 |
| GNMT | 3418.0 |
| RPLP2 | 3532.0 |
| PAPSS1 | 3586.0 |
| RPL31 | 3600.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| PAPSS2 | 5293.0 |
| RPL22 | 5772.0 |
| RPS23 | 6291.0 |
| MARS1 | 6440.0 |
| INMT | 6694.0 |
| GSR | 7348.0 |
| SECISBP2 | 7412.0 |
| SCLY | 8755.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
| EEFSEC | 10313.0 |
| HNMT | 10511.0 |
REACTOME_RNA_POLYMERASE_I_PROMOTER_ESCAPE
| 1157 | |
|---|---|
| set | REACTOME_RNA_POLYMERASE_I_PROMOTER_ESCAPE |
| setSize | 83 |
| pANOVA | 2.53e-09 |
| s.dist | -0.378 |
| p.adjustANOVA | 3.11e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| POLR1H | -8215.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| GTF2H3 | -6340.0 |
| POLR1C | -6163.0 |
| H3C8 | -5893.0 |
| POLR1G | -5845.0 |
| CDK7 | -5825.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| MNAT1 | -5299.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| CCNH | -4866.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| POLR1F | -4737.0 |
| H2AX | -4613.0 |
| POLR1B | -4549.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| UBTF | -3295.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| GTF2H5 | -3090.0 |
| POLR2H | -2710.0 |
| CBX3 | -2592.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| POLR1D | -1301.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| ERCC2 | 1041.0 |
| H2BC26 | 1116.0 |
| GTF2H1 | 2125.0 |
| POLR1A | 2501.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| GTF2H4 | 5742.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| RRN3 | 7841.0 |
| TAF1C | 8532.0 |
| ERCC3 | 8718.0 |
| H4C13 | 8916.0 |
REACTOME_CELLULAR_RESPONSE_TO_STARVATION
| 1582 | |
|---|---|
| set | REACTOME_CELLULAR_RESPONSE_TO_STARVATION |
| setSize | 147 |
| pANOVA | 2.65e-09 |
| s.dist | -0.284 |
| p.adjustANOVA | 3.11e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| CASTOR1 | -10229 |
| RPL18 | -10087 |
| SEH1L | -10060 |
| ATP6V0E2 | -10055 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| CASTOR1 | -10229.0 |
| RPL18 | -10087.0 |
| SEH1L | -10060.0 |
| ATP6V0E2 | -10055.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| RPL32 | -8650.0 |
| CEBPB | -8501.0 |
| RPSA | -8467.0 |
| EIF2S1 | -8073.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| RPL36 | -7654.0 |
| KICS2 | -7633.0 |
| RRAGC | -7551.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| DDIT3 | -7249.0 |
| RHEB | -7173.0 |
| RPS7 | -7130.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| EIF2S2 | -6392.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| FNIP1 | -6150.0 |
| LAMTOR3 | -6075.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| ATF2 | -5831.0 |
| RPL29 | -5778.0 |
| RRAGA | -5665.0 |
| ATP6V1D | -5424.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| RPL12 | -5128.0 |
| FAU | -5092.0 |
| UBA52 | -4934.0 |
| ITFG2 | -4864.0 |
| ATP6V1E2 | -4814.0 |
| ATP6V1G1 | -4739.0 |
| KPTN | -4622.0 |
| MLST8 | -4535.0 |
| RPL7 | -4473.0 |
| ATP6V1A | -4340.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| SLC38A9 | -3580.0 |
| LAMTOR5 | -3490.0 |
| RPS5 | -3417.0 |
| CEBPG | -3078.0 |
| MIOS | -3026.0 |
| RPL36AL | -2981.5 |
| DEPDC5 | -2953.0 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| ATP6V1G2 | -2383.0 |
| ATP6V1B2 | -2110.0 |
| ATF4 | -1852.0 |
| LAMTOR2 | -1828.0 |
| RPL10A | -1720.0 |
| RPL24 | -1557.0 |
| ATP6V1H | -1033.0 |
| RPL30 | -893.0 |
| SESN1 | -765.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| FNIP2 | -43.0 |
| SEC13 | 66.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| ATP6V0D2 | 1300.0 |
| LAMTOR4 | 1382.0 |
| ATP6V0C | 1839.0 |
| ATP6V1B1 | 1870.0 |
| WDR59 | 1905.0 |
| RRAGD | 2030.0 |
| ATP6V0B | 2171.0 |
| RPL21 | 2253.0 |
| ATP6V0E1 | 2818.0 |
| NPRL2 | 2838.0 |
| ATP6V1C1 | 2965.0 |
| ATF3 | 3315.0 |
| RPLP2 | 3532.0 |
| EIF2AK4 | 3594.0 |
| RPL31 | 3600.0 |
| NPRL3 | 3705.0 |
| TRIB3 | 3731.0 |
| ATP6V1C2 | 4365.0 |
| ATP6V1E1 | 4481.0 |
| GCN1 | 4487.0 |
| SESN2 | 4709.0 |
| RPL19 | 4741.0 |
| RPS25 | 4809.0 |
| SH3BP4 | 5016.0 |
| ATP6V1G3 | 5446.0 |
| RPL22 | 5772.0 |
| ASNS | 5979.0 |
| RPS23 | 6291.0 |
| BMT2 | 6565.0 |
| SZT2 | 7334.0 |
| MTOR | 7388.0 |
| ATP6V0D1 | 7429.0 |
| TCIRG1 | 8335.0 |
| ATP6V1F | 8527.0 |
| RPTOR | 8745.0 |
| LAMTOR1 | 9222.0 |
| WDR24 | 9482.0 |
| IMPACT | 9568.0 |
| FLCN | 9658.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
REACTOME_NEGATIVE_EPIGENETIC_REGULATION_OF_RRNA_EXPRESSION
| 853 | |
|---|---|
| set | REACTOME_NEGATIVE_EPIGENETIC_REGULATION_OF_RRNA_EXPRESSION |
| setSize | 100 |
| pANOVA | 3.83e-09 |
| s.dist | -0.341 |
| p.adjustANOVA | 4.19e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| SAP30 | -9654.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| SAP18 | -9497.0 |
| H3C3 | -9117.0 |
| SIN3A | -9018.0 |
| H2AC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| SAP30 | -9654.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| SAP18 | -9497.0 |
| H3C3 | -9117.0 |
| SIN3A | -9018.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| POLR1H | -8215.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| RRP8 | -6863.0 |
| ARID4B | -6686.0 |
| H2BC11 | -6443.0 |
| GTF2H3 | -6340.0 |
| POLR1C | -6163.0 |
| H3C8 | -5893.0 |
| POLR1G | -5845.0 |
| CDK7 | -5825.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| MNAT1 | -5299.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| CCNH | -4866.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| SMARCA5 | -4808.0 |
| H2BC8 | -4740.0 |
| POLR1F | -4737.0 |
| H2AX | -4613.0 |
| POLR1B | -4549.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| MBD2 | -3520.0 |
| UBTF | -3295.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| GTF2H5 | -3090.0 |
| POLR2H | -2710.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TTF1 | -2113.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| SAP130 | -1325.0 |
| POLR1D | -1301.0 |
| SIRT1 | -1075.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| HDAC1 | 78.0 |
| H2BC4 | 586.0 |
| ERCC2 | 1041.0 |
| H2BC26 | 1116.0 |
| DNMT3B | 1176.0 |
| GTF2H1 | 2125.0 |
| POLR1A | 2501.0 |
| HDAC2 | 2992.0 |
| SAP30BP | 3191.0 |
| BAZ2A | 3715.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| SIN3B | 5045.0 |
| DNMT1 | 5467.0 |
| GTF2H4 | 5742.0 |
| SAP30L | 5794.0 |
| SUDS3 | 6117.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| TAF1C | 8532.0 |
| ERCC3 | 8718.0 |
| H4C13 | 8916.0 |
REACTOME_SIRT1_NEGATIVELY_REGULATES_RRNA_EXPRESSION
| 737 | |
|---|---|
| set | REACTOME_SIRT1_NEGATIVELY_REGULATES_RRNA_EXPRESSION |
| setSize | 60 |
| pANOVA | 4.19e-09 |
| s.dist | -0.438 |
| p.adjustANOVA | 4.3e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| RRP8 | -6863.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| SIRT1 | -1075.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| TAF1C | 8532.0 |
| H4C13 | 8916.0 |
REACTOME_CELLULAR_RESPONSES_TO_STIMULI
| 1314 | |
|---|---|
| set | REACTOME_CELLULAR_RESPONSES_TO_STIMULI |
| setSize | 779 |
| pANOVA | 5.53e-09 |
| s.dist | -0.123 |
| p.adjustANOVA | 5.34e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| CCL2 | -10628.0 |
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| RPL39L | -10291.0 |
| H2BC3 | -10249.0 |
| CASTOR1 | -10229.0 |
| PRDX2 | -10200.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| GSTA1 | -10118.0 |
| RPL18 | -10087.0 |
| SEH1L | -10060.0 |
| ATP6V0E2 | -10055.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| H2BC13 | -9956.0 |
| IL6 | -9934.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| CCL2 | -10628.0 |
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| RPL39L | -10291.0 |
| H2BC3 | -10249.0 |
| CASTOR1 | -10229.0 |
| PRDX2 | -10200.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| GSTA1 | -10118.0 |
| RPL18 | -10087.0 |
| SEH1L | -10060.0 |
| ATP6V0E2 | -10055.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| H2BC13 | -9956.0 |
| IL6 | -9934.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| HSPA8 | -9899.0 |
| UBE2S | -9874.0 |
| MT1A | -9854.0 |
| CDK4 | -9831.0 |
| GFPT1 | -9823.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| CREB3 | -9767.0 |
| H4C11 | -9725.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| ASF1A | -9632.0 |
| COX6B1 | -9627.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| H2BC5 | -9558.0 |
| RPL28 | -9548.0 |
| H2AC4 | -9538.0 |
| TUBA3E | -9534.0 |
| PSMD13 | -9525.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RAD50 | -9451.0 |
| EXOSC4 | -9447.0 |
| HSPA1A | -9425.0 |
| HMOX1 | -9422.0 |
| CREB3L4 | -9410.0 |
| RPS14 | -9401.0 |
| COX16 | -9393.0 |
| IDH1 | -9372.0 |
| COX5A | -9354.0 |
| CAPZA1 | -9343.0 |
| CAPZA3 | -9340.0 |
| MIR24-2 | -9329.0 |
| GSTA3 | -9297.0 |
| HSPA13 | -9287.0 |
| PSMB8 | -9275.0 |
| NUP42 | -9274.0 |
| RPL9 | -9273.0 |
| EXOSC8 | -9261.0 |
| ERF | -9234.0 |
| NCOA6 | -9190.0 |
| NUP43 | -9181.0 |
| TUBA1B | -9157.0 |
| SOD2 | -9128.0 |
| H3C3 | -9117.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| PSMA7 | -9081.0 |
| BRCA1 | -9053.0 |
| TRIM21 | -9046.0 |
| CSNK2A1 | -9019.0 |
| SIN3A | -9018.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| RPS3A | -8975.0 |
| DYNLL1 | -8883.0 |
| IL1A | -8881.0 |
| MYC | -8846.0 |
| RPS3 | -8834.0 |
| TUBB8 | -8723.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| CYCS | -8679.0 |
| PSMA3 | -8660.0 |
| RPL32 | -8650.0 |
| NUP107 | -8608.0 |
| HBA1 | -8599.0 |
| DNAJC7 | -8587.0 |
| HSPA4L | -8545.0 |
| AGO1 | -8521.0 |
| CEBPB | -8501.0 |
| COX6C | -8483.0 |
| EGLN2 | -8473.0 |
| RPSA | -8467.0 |
| PSMC5 | -8460.0 |
| ETS2 | -8447.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| HDGF | -8267.0 |
| PSMD4 | -8253.0 |
| FKBP5 | -8251.0 |
| HSPB8 | -8183.0 |
| PTGES3 | -8162.0 |
| MAPKAPK2 | -8129.0 |
| H2BC10 | -8128.0 |
| TERF2IP | -8102.0 |
| DNAJA2 | -8100.0 |
| FKBP14 | -8079.0 |
| EIF2S1 | -8073.0 |
| UBC | -8040.0 |
| TUBA1A | -8015.0 |
| MRPL18 | -7989.0 |
| LMNA | -7958.0 |
| NUP37 | -7953.0 |
| TGS1 | -7901.0 |
| HSP90B1 | -7898.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| YWHAE | -7836.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| PSMB2 | -7696.0 |
| NUP160 | -7693.0 |
| RPL36 | -7654.0 |
| MYDGF | -7651.0 |
| KICS2 | -7633.0 |
| DIS3 | -7622.0 |
| EXOSC9 | -7610.0 |
| H2AC8 | -7580.0 |
| DNAJB1 | -7572.0 |
| RRAGC | -7551.0 |
| MED1 | -7549.0 |
| CALR | -7509.0 |
| CCS | -7505.0 |
| H3C10 | -7442.0 |
| RPL41 | -7424.0 |
| CREBRF | -7420.0 |
| COX18 | -7408.0 |
| KAT5 | -7394.0 |
| MT1E | -7392.0 |
| RPS8 | -7382.0 |
| SHC1 | -7374.0 |
| CDKN2C | -7371.0 |
| SRPRB | -7364.0 |
| RPL15 | -7360.0 |
| PSME2 | -7342.0 |
| PALB2 | -7323.0 |
| HIF3A | -7315.0 |
| COX4I1 | -7309.0 |
| DDIT3 | -7249.0 |
| HSPB2 | -7237.0 |
| RHEB | -7173.0 |
| H4C6 | -7171.0 |
| CDC16 | -7166.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| RPS7 | -7130.0 |
| PSMD7 | -7104.0 |
| SKP1 | -7085.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| GSK3B | -6981.0 |
| MAP2K3 | -6978.0 |
| RPS29 | -6975.0 |
| VHL | -6969.0 |
| NRIP1 | -6963.0 |
| DEDD2 | -6958.0 |
| MAPKAPK5 | -6938.0 |
| RPL7A | -6925.0 |
| RPL18A | -6838.0 |
| TERF1 | -6818.0 |
| CDC26 | -6803.0 |
| RPL37 | -6792.0 |
| PSMB9 | -6737.0 |
| COX11 | -6713.0 |
| CREB3L1 | -6712.0 |
| PSMC4 | -6700.0 |
| EIF2AK3 | -6694.0 |
| ID1 | -6671.0 |
| UBE2D3 | -6626.0 |
| CDKN2D | -6581.0 |
| NUP50 | -6564.0 |
| COX20 | -6535.0 |
| IGFBP1 | -6529.0 |
| H2BC11 | -6443.0 |
| PSMA5 | -6442.0 |
| EIF2S2 | -6392.0 |
| TXN2 | -6388.0 |
| AJUBA | -6355.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| E2F1 | -6323.0 |
| ANAPC1 | -6309.0 |
| PSMD11 | -6284.0 |
| RPS27L | -6200.0 |
| RPA2 | -6177.0 |
| HIF1A | -6157.0 |
| FNIP1 | -6150.0 |
| FOS | -6098.0 |
| LAMTOR3 | -6075.0 |
| ERN1 | -6074.0 |
| CSNK2A2 | -6062.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| JUN | -5900.0 |
| H3C8 | -5893.0 |
| RPL27 | -5884.0 |
| EXOSC5 | -5874.0 |
| EEF1A1 | -5856.0 |
| RPS11 | -5850.0 |
| ATF2 | -5831.0 |
| XPO1 | -5829.0 |
| H2AJ | -5812.0 |
| MAPK10 | -5809.0 |
| PRDX3 | -5799.0 |
| RPL29 | -5778.0 |
| PTK6 | -5723.0 |
| TUBAL3 | -5667.0 |
| RRAGA | -5665.0 |
| H4C12 | -5632.0 |
| HSP90AA1 | -5595.0 |
| PSME3 | -5547.0 |
| RNF2 | -5536.0 |
| SCO2 | -5515.0 |
| BLVRA | -5470.0 |
| ATP6V1D | -5424.0 |
| EXTL1 | -5360.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| EXOSC7 | -5281.0 |
| H4C2 | -5172.0 |
| CRYAB | -5161.0 |
| IFNB1 | -5159.0 |
| H2BC15 | -5136.0 |
| RPL12 | -5128.0 |
| HSBP1 | -5118.0 |
| H1-4 | -5116.0 |
| FAU | -5092.0 |
| UBB | -5059.0 |
| NUP153 | -5033.0 |
| TUBB4A | -5016.0 |
| GOSR2 | -5010.0 |
| HSP90AB1 | -4988.0 |
| HMGA1 | -4986.0 |
| KLHDC3 | -4976.0 |
| ETS1 | -4973.0 |
| TINF2 | -4952.0 |
| UBA52 | -4934.0 |
| CDKN2A | -4928.0 |
| ITFG2 | -4864.0 |
| HSPH1 | -4855.0 |
| LIMD1 | -4851.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| ATP6V1E2 | -4814.0 |
| PSMB10 | -4811.0 |
| EED | -4751.0 |
| H2BC8 | -4740.0 |
| ATP6V1G1 | -4739.0 |
| LMNB1 | -4730.0 |
| AKT1S1 | -4728.0 |
| KHSRP | -4714.0 |
| PSMA6 | -4676.0 |
| HMOX2 | -4671.0 |
| MDM4 | -4670.0 |
| AGO3 | -4662.0 |
| CHD9 | -4654.0 |
| KPTN | -4622.0 |
| H2AX | -4613.0 |
| COX6A1 | -4546.0 |
| EP300 | -4543.0 |
| MLST8 | -4535.0 |
| CDKN2B | -4480.0 |
| RPL7 | -4473.0 |
| PSMD9 | -4450.0 |
| CSNK2B | -4429.0 |
| H4C9 | -4394.0 |
| ATP6V1A | -4340.0 |
| MT3 | -4333.0 |
| HIGD1A | -4321.0 |
| DYNC1I1 | -4260.0 |
| H3C6 | -4228.0 |
| CBX8 | -4184.0 |
| GPX1 | -4172.0 |
| RPL26L1 | -4159.0 |
| MDM2 | -4121.0 |
| RPL13A | -4097.5 |
| TFDP2 | -4086.0 |
| H2BC12 | -3934.0 |
| DNAJB11 | -3931.0 |
| SUZ12 | -3901.0 |
| BAG1 | -3896.0 |
| ANAPC5 | -3877.0 |
| TACO1 | -3819.0 |
| COX7A2L | -3816.0 |
| PSMD5 | -3781.0 |
| ARNT | -3771.0 |
| HBB | -3770.0 |
| CYBA | -3735.0 |
| BAG4 | -3684.0 |
| CBX4 | -3659.0 |
| DCTN5 | -3650.0 |
| DNAJC2 | -3648.0 |
| UBE2E1 | -3620.0 |
| ACTR10 | -3616.0 |
| H2BC6 | -3615.0 |
| SLC38A9 | -3580.0 |
| TNRC6B | -3506.0 |
| LAMTOR5 | -3490.0 |
| MTF1 | -3482.0 |
| PSMC2 | -3476.0 |
| HSPA1L | -3462.0 |
| HSPA6 | -3457.0 |
| PSMA2 | -3445.0 |
| NUP155 | -3436.0 |
| RPS5 | -3417.0 |
| ANAPC10 | -3390.0 |
| PSMD6 | -3380.0 |
| UBE2D2 | -3328.0 |
| EXTL2 | -3317.0 |
| GSK3A | -3287.0 |
| PSMB4 | -3285.0 |
| CDKN1B | -3253.0 |
| DCP2 | -3244.0 |
| H1-2 | -3209.0 |
| RBX1 | -3208.0 |
| H2AC14 | -3153.0 |
| HERPUD1 | -3131.0 |
| SRXN1 | -3129.0 |
| H2BC1 | -3120.0 |
| PSMC3 | -3081.0 |
| CEBPG | -3078.0 |
| MIOS | -3026.0 |
| MAP2K7 | -2991.0 |
| LRPPRC | -2983.0 |
| RPL36AL | -2981.5 |
| MAPK7 | -2978.0 |
| DEPDC5 | -2953.0 |
| MT1X | -2943.0 |
| RPL14 | -2908.0 |
| ATM | -2904.0 |
| TPR | -2890.0 |
| HYOU1 | -2885.0 |
| TXNRD1 | -2861.0 |
| ERO1A | -2845.0 |
| IGFBP7 | -2842.0 |
| SCO1 | -2754.0 |
| RPS12 | -2751.0 |
| EGLN1 | -2719.0 |
| RPS27A | -2707.0 |
| HSPA1B | -2681.0 |
| RBBP4 | -2675.0 |
| CDK6 | -2634.0 |
| WTIP | -2598.0 |
| RPS21 | -2596.0 |
| KEAP1 | -2567.0 |
| PPARGC1A | -2520.0 |
| SERP1 | -2503.0 |
| BAG5 | -2480.0 |
| H1-3 | -2466.0 |
| NUP85 | -2443.0 |
| H4C16 | -2435.0 |
| CCNE1 | -2408.0 |
| PRDX5 | -2397.0 |
| ATP6V1G2 | -2383.0 |
| SOD1 | -2375.0 |
| TXNIP | -2326.0 |
| ALB | -2223.0 |
| ANAPC16 | -2166.0 |
| ME1 | -2156.0 |
| HSPA12A | -2150.0 |
| H3C11 | -2128.0 |
| ATP6V1B2 | -2110.0 |
| NR3C2 | -2050.0 |
| HSPA12B | -2032.0 |
| SNCB | -2029.0 |
| NPAS2 | -1969.0 |
| CCNA2 | -1962.0 |
| NUP98 | -1888.0 |
| NBN | -1875.0 |
| ATF4 | -1852.0 |
| LAMTOR2 | -1828.0 |
| H2BC21 | -1800.0 |
| PPP2R5B | -1791.0 |
| NFYC | -1772.0 |
| PSMB6 | -1764.0 |
| MAFG | -1740.0 |
| RPL10A | -1720.0 |
| TP53 | -1704.0 |
| APOB | -1692.0 |
| NR3C1 | -1687.0 |
| RORA | -1659.0 |
| CAMK2D | -1646.0 |
| RPL24 | -1557.0 |
| TUBA4A | -1528.0 |
| NFKB1 | -1523.0 |
| ANAPC11 | -1511.0 |
| HSPA5 | -1489.0 |
| HSPA14 | -1425.0 |
| TBL1XR1 | -1412.0 |
| MAPKAPK3 | -1391.0 |
| ATOX1 | -1254.0 |
| ACADVL | -1241.0 |
| CDK2 | -1214.0 |
| DCTN2 | -1194.0 |
| E2F3 | -1191.0 |
| BMI1 | -1182.0 |
| SYVN1 | -1177.0 |
| SIRT1 | -1075.0 |
| PSMC6 | -1062.0 |
| TLN1 | -1049.0 |
| CRTC2 | -1036.0 |
| ATP6V1H | -1033.0 |
| H3-3A | -1031.0 |
| RELA | -982.0 |
| MAPK11 | -896.0 |
| RPL30 | -893.0 |
| NCF2 | -892.0 |
| GPX6 | -868.0 |
| H3-3B | -813.0 |
| SESN1 | -765.0 |
| CCNA1 | -706.0 |
| XBP1 | -660.0 |
| SEC31A | -641.0 |
| TUBB3 | -637.0 |
| DNAJC3 | -592.0 |
| HSPA2 | -580.0 |
| HM13 | -541.0 |
| NCOR1 | -527.0 |
| RPS24 | -456.0 |
| H2AC20 | -444.0 |
| DCSTAMP | -403.0 |
| RPL6 | -400.0 |
| CAPZA2 | -391.0 |
| ACTR1A | -344.0 |
| MAP2K6 | -307.0 |
| CREB3L3 | -302.0 |
| GCLM | -290.0 |
| NUP58 | -237.0 |
| SKP2 | -213.0 |
| H4C1 | -204.0 |
| CDKN1A | -65.0 |
| BTRC | -46.0 |
| FNIP2 | -43.0 |
| COX5B | -40.0 |
| SEM1 | -38.0 |
| TPP1 | -32.0 |
| HSPA9 | -30.0 |
| PSMB1 | -28.0 |
| HSPA4 | -7.0 |
| SEC13 | 66.0 |
| YIF1A | 134.0 |
| BAG3 | 161.0 |
| LY96 | 187.0 |
| PSMA1 | 296.0 |
| RPS15 | 320.0 |
| AQP8 | 366.0 |
| DCTN6 | 373.0 |
| NUDT2 | 408.0 |
| BACH1 | 430.0 |
| NUP35 | 446.0 |
| NCOA2 | 526.0 |
| E2F2 | 573.0 |
| H2BC4 | 586.0 |
| CAMK2A | 600.0 |
| MEF2C | 646.0 |
| GPX5 | 668.0 |
| HIF1AN | 724.0 |
| DNAJA1 | 731.0 |
| RPS20 | 828.0 |
| NPLOC4 | 838.0 |
| PARN | 927.0 |
| ST13 | 942.0 |
| MAPK1 | 981.0 |
| PREB | 1031.0 |
| CDC27 | 1034.0 |
| NOX4 | 1061.0 |
| GRB10 | 1066.0 |
| H2BC26 | 1116.0 |
| ANAPC15 | 1129.0 |
| COX14 | 1160.0 |
| PGR | 1209.0 |
| DYNC1LI1 | 1214.0 |
| BLVRB | 1218.0 |
| VCP | 1230.0 |
| ATP6V0D2 | 1300.0 |
| EPO | 1308.0 |
| SLC7A11 | 1323.0 |
| NUP88 | 1334.0 |
| LAMTOR4 | 1382.0 |
| NDC1 | 1422.0 |
| PSMB7 | 1455.0 |
| ELOC | 1468.0 |
| UBXN7 | 1522.0 |
| TLR4 | 1524.0 |
| NUP214 | 1526.0 |
| EIF2AK1 | 1531.0 |
| EDEM1 | 1559.0 |
| DNAJB9 | 1566.0 |
| TATDN2 | 1573.0 |
| PSME4 | 1583.0 |
| PSMB5 | 1628.0 |
| GPX8 | 1662.0 |
| POM121C | 1782.0 |
| ATP6V0C | 1839.0 |
| PGD | 1849.0 |
| ATP6V1B1 | 1870.0 |
| TUBA1C | 1901.0 |
| WDR59 | 1905.0 |
| EXOSC3 | 1939.0 |
| TXN | 1959.0 |
| DPP3 | 1960.0 |
| NOX5 | 2024.0 |
| RRAGD | 2030.0 |
| SP1 | 2034.0 |
| H1-0 | 2122.0 |
| WFS1 | 2126.0 |
| EZH2 | 2131.0 |
| ATP6V0B | 2171.0 |
| TNRC6C | 2186.0 |
| RPA3 | 2233.0 |
| VEGFA | 2243.0 |
| RPL21 | 2253.0 |
| BAG2 | 2273.0 |
| RPS6KA1 | 2303.0 |
| NUP188 | 2308.0 |
| HMGA2 | 2481.0 |
| SRPRA | 2535.0 |
| CCNE2 | 2538.0 |
| MOV10 | 2631.0 |
| MAP2K4 | 2792.0 |
| ATF5 | 2807.0 |
| ATP6V0E1 | 2818.0 |
| NPRL2 | 2838.0 |
| CREB3L2 | 2910.0 |
| ATP6V1C1 | 2965.0 |
| NUP54 | 2991.0 |
| TUBB2B | 3025.0 |
| NLRP3 | 3033.0 |
| H1-5 | 3094.0 |
| STAP2 | 3123.0 |
| DYNC1I2 | 3148.0 |
| CUL1 | 3151.0 |
| ATR | 3233.0 |
| ANAPC7 | 3281.0 |
| ATF3 | 3315.0 |
| TALDO1 | 3320.0 |
| TKT | 3371.0 |
| NUP133 | 3395.0 |
| CDC23 | 3434.0 |
| UFD1 | 3448.0 |
| NFE2L2 | 3449.0 |
| MEF2D | 3454.0 |
| CAT | 3473.0 |
| PRDX6 | 3523.0 |
| NUP62 | 3527.0 |
| RPLP2 | 3532.0 |
| PDIA6 | 3591.0 |
| EIF2AK4 | 3594.0 |
| RPL31 | 3600.0 |
| SQSTM1 | 3627.0 |
| NDUFA4 | 3658.0 |
| TUBB4B | 3664.0 |
| NPRL3 | 3705.0 |
| TRIB3 | 3731.0 |
| CAMK2B | 3755.0 |
| AGO4 | 3763.0 |
| RPA1 | 3825.0 |
| H2AC6 | 3867.0 |
| FKBP4 | 3886.0 |
| COX19 | 3927.0 |
| CBX6 | 3963.0 |
| DNAJB6 | 3969.0 |
| RPS6KA2 | 3972.0 |
| CLEC1B | 4063.0 |
| SOD3 | 4151.0 |
| APOA1 | 4203.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| RAE1 | 4292.0 |
| STAT3 | 4311.0 |
| MAP3K5 | 4355.0 |
| ATP6V1C2 | 4365.0 |
| TNIK | 4370.0 |
| CUL2 | 4451.0 |
| TUBA3D | 4458.0 |
| ATP6V1E1 | 4481.0 |
| GCN1 | 4487.0 |
| CTDSP2 | 4500.0 |
| EXOSC1 | 4509.0 |
| BMAL1 | 4538.0 |
| H2AZ2 | 4572.0 |
| NUP93 | 4585.0 |
| HIRA | 4599.0 |
| AAAS | 4604.0 |
| UBN1 | 4606.0 |
| CREBBP | 4616.0 |
| STIP1 | 4634.0 |
| HSPB1 | 4649.0 |
| SESN2 | 4709.0 |
| RPL19 | 4741.0 |
| MUL1 | 4766.0 |
| GPX7 | 4806.0 |
| RPS25 | 4809.0 |
| MAPK14 | 4829.0 |
| TXNRD2 | 4837.0 |
| AKT2 | 4840.0 |
| CSRP1 | 4871.0 |
| CLOCK | 4971.0 |
| CRTC3 | 4974.0 |
| NFYA | 4977.0 |
| PSMD1 | 5004.0 |
| SH3BP4 | 5016.0 |
| TERF2 | 5034.0 |
| SIN3B | 5045.0 |
| H1-1 | 5053.0 |
| MT2A | 5063.0 |
| ELOB | 5112.0 |
| MAPK3 | 5125.0 |
| MBTPS1 | 5139.0 |
| ACD | 5204.5 |
| EGLN3 | 5222.0 |
| NUP205 | 5228.0 |
| NR1D1 | 5257.0 |
| PSMF1 | 5263.0 |
| P4HB | 5278.0 |
| PPP1R15A | 5282.0 |
| DCTN4 | 5283.0 |
| EHMT1 | 5378.0 |
| CITED2 | 5389.0 |
| ATP6V1G3 | 5446.0 |
| MAP1LC3B | 5514.0 |
| CUL7 | 5528.0 |
| PPARA | 5586.0 |
| PDIA5 | 5626.0 |
| UBE2C | 5682.0 |
| MT1M | 5689.0 |
| SSR1 | 5709.0 |
| ARFGAP1 | 5725.0 |
| RPL22 | 5772.0 |
| CRYBA4 | 5814.0 |
| PHC3 | 5835.0 |
| HELZ2 | 5844.0 |
| RANBP2 | 5895.0 |
| CAPZB | 5950.0 |
| DYNLL2 | 5970.0 |
| ASNS | 5979.0 |
| PRKCD | 5998.0 |
| EXOSC6 | 6019.0 |
| TUBA4B | 6021.0 |
| GCLC | 6148.0 |
| CAMK2G | 6222.0 |
| ATF6 | 6246.0 |
| MT1G | 6276.0 |
| RPS23 | 6291.0 |
| MAPK9 | 6293.0 |
| UBE2D1 | 6348.0 |
| CRTC1 | 6353.0 |
| CREB1 | 6384.0 |
| SURF1 | 6388.0 |
| CXCL8 | 6479.0 |
| POT1 | 6490.0 |
| H3C12 | 6531.0 |
| BMT2 | 6565.0 |
| ADD1 | 6583.0 |
| KDELR3 | 6635.0 |
| HIKESHI | 6652.0 |
| RAI1 | 6734.0 |
| MRE11 | 6746.0 |
| GML | 6750.0 |
| PSMD12 | 6808.0 |
| CXXC1 | 6855.0 |
| DCTN3 | 6913.0 |
| GSTP1 | 6925.0 |
| CHAC1 | 6931.0 |
| RPS19BP1 | 6940.0 |
| HDAC3 | 6994.0 |
| ABCC1 | 7025.0 |
| HSF1 | 7039.0 |
| PSME1 | 7056.0 |
| POM121 | 7060.0 |
| TUBB2A | 7081.0 |
| MT1B | 7126.0 |
| SCMH1 | 7127.0 |
| PRDX1 | 7142.0 |
| WIPI1 | 7286.0 |
| SLC46A1 | 7287.0 |
| MAP4K4 | 7316.0 |
| SZT2 | 7334.0 |
| GSR | 7348.0 |
| MTOR | 7388.0 |
| ATP6V0D1 | 7429.0 |
| H3C2 | 7476.0 |
| EHMT2 | 7491.0 |
| CARM1 | 7543.0 |
| NFYB | 7596.0 |
| EXOSC2 | 7600.0 |
| DCTN1 | 7609.0 |
| AKT3 | 7612.0 |
| TNFRSF21 | 7652.0 |
| USP46 | 7657.0 |
| COX7C | 7759.0 |
| TUBB6 | 7778.0 |
| H3-4 | 7838.0 |
| MAPK8 | 7911.0 |
| RB1 | 7933.0 |
| AKT1 | 7961.0 |
| ANAPC4 | 7971.0 |
| EPAS1 | 8001.0 |
| PSMA8 | 8011.0 |
| PHC2 | 8034.0 |
| FBXL17 | 8109.0 |
| NCOA1 | 8118.0 |
| TNRC6A | 8122.0 |
| EP400 | 8138.0 |
| FZR1 | 8219.0 |
| PSMD14 | 8243.0 |
| KDM6B | 8284.0 |
| MT1F | 8285.0 |
| ZBTB17 | 8288.0 |
| TCIRG1 | 8335.0 |
| CBX2 | 8371.0 |
| CA9 | 8447.0 |
| SMARCD3 | 8471.0 |
| TUBA8 | 8510.0 |
| ATP6V1F | 8527.0 |
| MIR24-1 | 8555.0 |
| SERPINH1 | 8654.0 |
| NQO1 | 8714.0 |
| RPTOR | 8745.0 |
| MAFK | 8800.0 |
| DNAJA4 | 8831.0 |
| NOTCH1 | 8855.0 |
| H4C13 | 8916.0 |
| CCAR2 | 8982.0 |
| PHC1 | 8999.0 |
| VENTX | 9003.0 |
| MINK1 | 9051.0 |
| DYNC1H1 | 9059.0 |
| CABIN1 | 9117.0 |
| NCOR2 | 9123.0 |
| LAMTOR1 | 9222.0 |
| EXTL3 | 9252.0 |
| ANAPC2 | 9292.0 |
| RLN1 | 9408.0 |
| PSMD8 | 9422.0 |
| NUP210 | 9431.0 |
| TUBA3C | 9441.0 |
| WDR24 | 9482.0 |
| NCF4 | 9494.0 |
| IMPACT | 9568.0 |
| DYNC1LI2 | 9584.0 |
| CUL3 | 9592.0 |
| FLCN | 9658.0 |
| TFDP1 | 9663.0 |
| RING1 | 9689.0 |
| GPX3 | 9722.0 |
| FABP1 | 9889.0 |
| PSMD2 | 9891.0 |
| RPL3L | 9915.0 |
| GPX2 | 10031.0 |
| RPL10L | 10108.0 |
| COX8A | 10114.0 |
| RXRA | 10290.0 |
| MT4 | 10297.0 |
| DDX11 | 10344.0 |
| HBA2 | 10390.0 |
| TUBB1 | 10462.0 |
| MT1H | 10528.0 |
| PSMB11 | 10612.0 |
| PLA2G4B | 11017.0 |
REACTOME_RUNX1_REGULATES_TRANSCRIPTION_OF_GENES_INVOLVED_IN_DIFFERENTIATION_OF_HSCS
| 1282 | |
|---|---|
| set | REACTOME_RUNX1_REGULATES_TRANSCRIPTION_OF_GENES_INVOLVED_IN_DIFFERENTIATION_OF_HSCS |
| setSize | 121 |
| pANOVA | 1.02e-08 |
| s.dist | -0.301 |
| p.adjustANOVA | 9.18e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| PSMD13 | -9525.0 |
| PSMB8 | -9275.0 |
| H3C3 | -9117.0 |
| PSMA7 | -9081.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| PSMA3 | -8660.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| PSMD13 | -9525.0 |
| PSMB8 | -9275.0 |
| H3C3 | -9117.0 |
| PSMA7 | -9081.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| PSMA3 | -8660.0 |
| PSMC5 | -8460.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| PSMD4 | -8253.0 |
| H2BC10 | -8128.0 |
| UBC | -8040.0 |
| PSMB2 | -7696.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| PSME2 | -7342.0 |
| H4C6 | -7171.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| PSMD7 | -7104.0 |
| PSMB9 | -6737.0 |
| PSMC4 | -6700.0 |
| H2BC11 | -6443.0 |
| PSMA5 | -6442.0 |
| PSMD11 | -6284.0 |
| H3C8 | -5893.0 |
| CDK7 | -5825.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| PSME3 | -5547.0 |
| GATA2 | -5361.0 |
| CBFB | -5323.0 |
| MNAT1 | -5299.0 |
| LDB1 | -5289.0 |
| YAP1 | -5262.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| UBB | -5059.0 |
| UBA52 | -4934.0 |
| CCNH | -4866.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| PSMB10 | -4811.0 |
| H2BC8 | -4740.0 |
| PSMA6 | -4676.0 |
| H2AX | -4613.0 |
| PSMD9 | -4450.0 |
| TAL1 | -4419.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| PSMD5 | -3781.0 |
| H2BC6 | -3615.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| PSMD6 | -3380.0 |
| KMT2A | -3359.0 |
| PSMB4 | -3285.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| PSMC3 | -3081.0 |
| RPS27A | -2707.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| RUNX1 | -1819.0 |
| H2BC21 | -1800.0 |
| PSMB6 | -1764.0 |
| ITCH | -1575.0 |
| MYB | -1291.0 |
| PSMC6 | -1062.0 |
| LMO1 | -1044.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| PSMA1 | 296.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| ABL1 | 1449.0 |
| PSMB7 | 1455.0 |
| PSME4 | 1583.0 |
| PSMB5 | 1628.0 |
| TP73 | 2799.0 |
| SPI1 | 3035.0 |
| H2AC6 | 3867.0 |
| TCF12 | 4145.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| H2AZ2 | 4572.0 |
| LMO2 | 4887.0 |
| PSMD1 | 5004.0 |
| PSMF1 | 5263.0 |
| H3C12 | 6531.0 |
| PSMD12 | 6808.0 |
| PSME1 | 7056.0 |
| GATA3 | 7270.0 |
| H3C2 | 7476.0 |
| PSMA8 | 8011.0 |
| PSMD14 | 8243.0 |
| H4C13 | 8916.0 |
| PSMD8 | 9422.0 |
| TCF3 | 9438.0 |
| PSMD2 | 9891.0 |
| PSMB11 | 10612.0 |
REACTOME_DNA_REPLICATION_PRE_INITIATION
| 1101 | |
|---|---|
| set | REACTOME_DNA_REPLICATION_PRE_INITIATION |
| setSize | 150 |
| pANOVA | 1.06e-08 |
| s.dist | -0.271 |
| p.adjustANOVA | 9.18e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| POLE3 | -10268.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| MCM5 | -9967.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| UBE2S | -9874.0 |
| H4C11 | -9725.0 |
| POLE4 | -9697.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| PSMD13 | -9525.0 |
| PSMB8 | -9275.0 |
| H3C3 | -9117.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| POLE3 | -10268.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| MCM5 | -9967.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| UBE2S | -9874.0 |
| H4C11 | -9725.0 |
| POLE4 | -9697.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| PSMD13 | -9525.0 |
| PSMB8 | -9275.0 |
| H3C3 | -9117.0 |
| PSMA7 | -9081.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| PSMA3 | -8660.0 |
| PSMC5 | -8460.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| PSMD4 | -8253.0 |
| H2BC10 | -8128.0 |
| UBC | -8040.0 |
| PSMB2 | -7696.0 |
| H2AC8 | -7580.0 |
| KPNB1 | -7455.0 |
| H3C10 | -7442.0 |
| PSME2 | -7342.0 |
| H4C6 | -7171.0 |
| CDC16 | -7166.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| DBF4 | -7142.0 |
| PSMD7 | -7104.0 |
| CDC26 | -6803.0 |
| PSMB9 | -6737.0 |
| PSMC4 | -6700.0 |
| H2BC11 | -6443.0 |
| PSMA5 | -6442.0 |
| MCM8 | -6337.0 |
| ANAPC1 | -6309.0 |
| PSMD11 | -6284.0 |
| RPA2 | -6177.0 |
| POLA2 | -5905.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| PSME3 | -5547.0 |
| KPNA1 | -5353.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| UBB | -5059.0 |
| UBA52 | -4934.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| PSMB10 | -4811.0 |
| H2BC8 | -4740.0 |
| MCM6 | -4722.0 |
| PSMA6 | -4676.0 |
| H2AX | -4613.0 |
| PRIM2 | -4490.0 |
| PSMD9 | -4450.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| ORC1 | -4115.0 |
| ORC2 | -3938.0 |
| H2BC12 | -3934.0 |
| ANAPC5 | -3877.0 |
| PSMD5 | -3781.0 |
| UBE2E1 | -3620.0 |
| H2BC6 | -3615.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| MCM4 | -3404.0 |
| ANAPC10 | -3390.0 |
| PSMD6 | -3380.0 |
| PSMB4 | -3285.0 |
| H2AC14 | -3153.0 |
| MCM10 | -3137.0 |
| H2BC1 | -3120.0 |
| PSMC3 | -3081.0 |
| RPS27A | -2707.0 |
| H4C16 | -2435.0 |
| ANAPC16 | -2166.0 |
| CDC6 | -2152.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| PSMB6 | -1764.0 |
| ORC3 | -1754.0 |
| ANAPC11 | -1511.0 |
| CDK2 | -1214.0 |
| PRIM1 | -1066.0 |
| PSMC6 | -1062.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| PSMA1 | 296.0 |
| MCM3 | 342.0 |
| H2BC4 | 586.0 |
| ORC5 | 821.0 |
| CDC27 | 1034.0 |
| CDC7 | 1087.0 |
| H2BC26 | 1116.0 |
| ANAPC15 | 1129.0 |
| PSMB7 | 1455.0 |
| CDT1 | 1607.0 |
| PSMB5 | 1628.0 |
| GMNN | 1922.0 |
| RPA3 | 2233.0 |
| ORC4 | 2489.0 |
| MCM7 | 3207.0 |
| ANAPC7 | 3281.0 |
| CDC23 | 3434.0 |
| RPA1 | 3825.0 |
| H2AC6 | 3867.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| KPNA6 | 4371.0 |
| H2AZ2 | 4572.0 |
| PSMD1 | 5004.0 |
| PSMF1 | 5263.0 |
| UBE2C | 5682.0 |
| UBE2D1 | 6348.0 |
| POLE2 | 6363.0 |
| ORC6 | 6395.0 |
| H3C12 | 6531.0 |
| PSMD12 | 6808.0 |
| CDC45 | 7024.0 |
| PSME1 | 7056.0 |
| H3C2 | 7476.0 |
| ANAPC4 | 7971.0 |
| FZR1 | 8219.0 |
| PSMD14 | 8243.0 |
| POLE | 8419.0 |
| H4C13 | 8916.0 |
| ANAPC2 | 9292.0 |
| PSMD8 | 9422.0 |
| MCM2 | 9504.0 |
| PSMD2 | 9891.0 |
REACTOME_ASSEMBLY_OF_THE_ORC_COMPLEX_AT_THE_ORIGIN_OF_REPLICATION
| 1091 | |
|---|---|
| set | REACTOME_ASSEMBLY_OF_THE_ORC_COMPLEX_AT_THE_ORIGIN_OF_REPLICATION |
| setSize | 62 |
| pANOVA | 1.29e-08 |
| s.dist | -0.418 |
| p.adjustANOVA | 9.83e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| KPNB1 | -7455.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| KPNA1 | -5353.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| ORC1 | -4115.0 |
| ORC2 | -3938.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| ORC3 | -1754.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| ORC5 | 821.0 |
| H2BC26 | 1116.0 |
| ORC4 | 2489.0 |
| H2AC6 | 3867.0 |
| KPNA6 | 4371.0 |
| H2AZ2 | 4572.0 |
| ORC6 | 6395.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| H4C13 | 8916.0 |
REACTOME_MEIOTIC_RECOMBINATION
| 1433 | |
|---|---|
| set | REACTOME_MEIOTIC_RECOMBINATION |
| setSize | 80 |
| pANOVA | 1.3e-08 |
| s.dist | -0.368 |
| p.adjustANOVA | 9.83e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| MSH4 | -9933.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| RAD50 | -9451.0 |
| H3C3 | -9117.0 |
| BRCA1 | -9053.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| MSH4 | -9933.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| RAD50 | -9451.0 |
| H3C3 | -9117.0 |
| BRCA1 | -9053.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| SPO11 | -8732.0 |
| BRCA2 | -8726.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| RAD51C | -7228.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| RPA2 | -6177.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| RBBP8 | -4437.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| RAD51 | -3603.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| ATM | -2904.0 |
| MLH1 | -2713.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| NBN | -1875.0 |
| H2BC21 | -1800.0 |
| CDK2 | -1214.0 |
| H3-3A | -1031.0 |
| PSMC3IP | -883.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| MND1 | -236.0 |
| H4C1 | -204.0 |
| MSH5 | -9.0 |
| BLM | 541.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| TEX15 | 1381.0 |
| RPA3 | 2233.0 |
| DMC1 | 2773.0 |
| RPA1 | 3825.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| PRDM9 | 4850.0 |
| TOP3A | 6257.0 |
| H3C12 | 6531.0 |
| MLH3 | 6715.0 |
| MRE11 | 6746.0 |
| H3C2 | 7476.0 |
| H3-4 | 7838.0 |
| H4C13 | 8916.0 |
REACTOME_ACTIVATED_PKN1_STIMULATES_TRANSCRIPTION_OF_AR_ANDROGEN_RECEPTOR_REGULATED_GENES_KLK2_AND_KLK3
| 916 | |
|---|---|
| set | REACTOME_ACTIVATED_PKN1_STIMULATES_TRANSCRIPTION_OF_AR_ANDROGEN_RECEPTOR_REGULATED_GENES_KLK2_AND_KLK3 |
| setSize | 59 |
| pANOVA | 1.32e-08 |
| s.dist | -0.428 |
| p.adjustANOVA | 9.83e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| KLK3 | -10052.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| KLK3 | -10052.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| PKN1 | -6492.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| NCOA2 | 526.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| KDM1A | 2071.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| KDM4C | 4820.0 |
| H3C12 | 6531.0 |
| KLK2 | 7214.0 |
| H3C2 | 7476.0 |
| H4C13 | 8916.0 |
REACTOME_INFECTIOUS_DISEASE
| 974 | |
|---|---|
| set | REACTOME_INFECTIOUS_DISEASE |
| setSize | 910 |
| pANOVA | 1.4e-08 |
| s.dist | -0.111 |
| p.adjustANOVA | 9.99e-07 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| IFNA8 | -10817.0 |
| IFNA21 | -10738.0 |
| CD3G | -10650.0 |
| SFN | -10645.0 |
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| ZCRB1 | -10430.0 |
| IFNA16 | -10414.0 |
| H2BC17 | -10413.0 |
| BECN1 | -10364.0 |
| VPS37D | -10354.0 |
| H4C8 | -10347.0 |
| RPL39L | -10291.0 |
| H2BC3 | -10249.0 |
| TAF15 | -10246.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| CHMP4C | -10126.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| IFNA8 | -10817.0 |
| IFNA21 | -10738.0 |
| CD3G | -10650.0 |
| SFN | -10645.0 |
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| ZCRB1 | -10430.0 |
| IFNA16 | -10414.0 |
| H2BC17 | -10413.0 |
| BECN1 | -10364.0 |
| VPS37D | -10354.0 |
| H4C8 | -10347.0 |
| RPL39L | -10291.0 |
| H2BC3 | -10249.0 |
| TAF15 | -10246.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| CHMP4C | -10126.0 |
| RPL18 | -10087.0 |
| SEH1L | -10060.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| H2AC11 | -9981.0 |
| RPL38 | -9969.0 |
| H2BC13 | -9956.0 |
| IL6 | -9934.0 |
| TAF9 | -9926.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| TUFM | -9885.0 |
| POLR2I | -9848.0 |
| LCK | -9835.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| IFNA1 | -9797.0 |
| GNG3 | -9749.0 |
| H4C11 | -9725.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| GTF2E1 | -9662.0 |
| SAP30 | -9654.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| SMAD4 | -9585.0 |
| HNRNPA1 | -9569.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| RPL28 | -9548.0 |
| CCR5 | -9546.0 |
| H2AC4 | -9538.0 |
| TUBA3E | -9534.0 |
| PSMD13 | -9525.0 |
| RPS18 | -9512.0 |
| SAP18 | -9497.0 |
| FXYD3 | -9492.0 |
| RPS26 | -9490.0 |
| TUSC3 | -9484.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| HSPA1A | -9425.0 |
| HMOX1 | -9422.0 |
| RNMT | -9412.0 |
| RPS14 | -9401.0 |
| SNRPD2 | -9397.0 |
| G3BP1 | -9322.0 |
| PYCARD | -9319.0 |
| ARID4A | -9299.0 |
| GEMIN5 | -9279.0 |
| PSMB8 | -9275.0 |
| NUP42 | -9274.0 |
| RPL9 | -9273.0 |
| SEC24A | -9243.0 |
| TLR9 | -9221.0 |
| TSG101 | -9209.0 |
| PTPN6 | -9208.0 |
| NUP43 | -9181.0 |
| CORO1A | -9169.0 |
| TUBA1B | -9157.0 |
| H3C3 | -9117.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| PARP10 | -9082.0 |
| PSMA7 | -9081.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| RPS3A | -8975.0 |
| HMG20B | -8919.0 |
| DYNLL1 | -8883.0 |
| IL1A | -8881.0 |
| RPS3 | -8834.0 |
| PPIA | -8791.0 |
| TUBB8 | -8723.0 |
| NCKAP1L | -8705.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| TAF6 | -8676.0 |
| PSMA3 | -8660.0 |
| RPL32 | -8650.0 |
| NUP107 | -8608.0 |
| IL10 | -8543.0 |
| GEMIN2 | -8513.0 |
| DDX20 | -8485.0 |
| SFPQ | -8471.0 |
| RPSA | -8467.0 |
| PSMC5 | -8460.0 |
| YWHAZ | -8450.0 |
| ATP1B1 | -8444.0 |
| ATG14 | -8414.0 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| CD79B | -8386.0 |
| TUBB | -8344.0 |
| PSMD4 | -8253.0 |
| HLA-E | -8224.0 |
| ARPC5 | -8216.0 |
| ISG15 | -8165.0 |
| PTGES3 | -8162.0 |
| REST | -8152.0 |
| CD79A | -8146.0 |
| SUPT4H1 | -8138.0 |
| H2BC10 | -8128.0 |
| GGT5 | -8105.0 |
| FGR | -8084.0 |
| ZDHHC5 | -8082.0 |
| DPEP3 | -8071.0 |
| H2AC13 | -8049.0 |
| UBC | -8040.0 |
| TAF12 | -8022.0 |
| TUBA1A | -8015.0 |
| ATP1B2 | -8011.0 |
| VAMP1 | -7961.0 |
| NUP37 | -7953.0 |
| CLTA | -7950.0 |
| FEN1 | -7941.0 |
| FXYD7 | -7916.0 |
| RPLP0 | -7893.0 |
| B2M | -7885.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| YWHAE | -7836.0 |
| KPNA4 | -7797.0 |
| RPS19 | -7779.0 |
| ANO4 | -7777.0 |
| HLA-B | -7773.0 |
| RPS2 | -7738.0 |
| WASF2 | -7713.0 |
| RPL4 | -7711.0 |
| PSMB2 | -7696.0 |
| NUP160 | -7693.0 |
| ANO3 | -7680.0 |
| CD8B | -7678.0 |
| RPL36 | -7654.0 |
| H2AC8 | -7580.0 |
| NFKB2 | -7578.0 |
| SDC3 | -7546.0 |
| PARP1 | -7536.0 |
| CALR | -7509.0 |
| IRF3 | -7495.0 |
| POLR2E | -7485.0 |
| CHMP1A | -7463.0 |
| KPNB1 | -7455.0 |
| TAF11 | -7449.0 |
| H3C10 | -7442.0 |
| RPL41 | -7424.0 |
| SUGT1 | -7390.0 |
| NPM1 | -7384.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| ATP1A3 | -7356.0 |
| PSME2 | -7342.0 |
| TRAF6 | -7314.0 |
| ABI1 | -7301.0 |
| HCK | -7274.0 |
| MAP2K1 | -7272.0 |
| RPN1 | -7172.0 |
| H4C6 | -7171.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| RPS7 | -7130.0 |
| CHMP4B | -7128.0 |
| PSMD7 | -7104.0 |
| SKP1 | -7085.0 |
| RPL37A | -7049.0 |
| LTF | -7046.0 |
| GNG2 | -7031.0 |
| AP1G1 | -7022.0 |
| RPS15A | -7015.0 |
| GNB2 | -7009.0 |
| SSRP1 | -6990.0 |
| ARPC3 | -6986.0 |
| GSK3B | -6981.0 |
| MAP2K3 | -6978.0 |
| RPS29 | -6975.0 |
| VHL | -6969.0 |
| NOXA1 | -6956.0 |
| HBEGF | -6941.0 |
| BLNK | -6933.0 |
| RPL7A | -6925.0 |
| S1PR1 | -6905.0 |
| IFIH1 | -6877.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| PSMB9 | -6737.0 |
| TGFB1 | -6722.0 |
| PSMC4 | -6700.0 |
| ARID4B | -6686.0 |
| ISCU | -6685.0 |
| CD163 | -6678.0 |
| BST2 | -6673.0 |
| SNRPG | -6599.0 |
| UBE2V1 | -6594.0 |
| RIGI | -6593.0 |
| TLR1 | -6592.0 |
| BANF1 | -6589.0 |
| NUP50 | -6564.0 |
| SNRPD1 | -6546.0 |
| CRBN | -6532.0 |
| GATAD2B | -6523.0 |
| H2BC11 | -6443.0 |
| PSMA5 | -6442.0 |
| GUCY2C | -6399.0 |
| GPC5 | -6387.0 |
| JAK1 | -6365.0 |
| RPL8 | -6347.0 |
| GTF2H3 | -6340.0 |
| RPS13 | -6339.0 |
| PSMD11 | -6284.0 |
| DVL2 | -6228.0 |
| SV2B | -6221.0 |
| RPN2 | -6204.0 |
| RPS27L | -6200.0 |
| PSTPIP1 | -6195.0 |
| GNG10 | -6179.0 |
| TRIM4 | -6170.0 |
| TRIM25 | -6160.0 |
| SNRPD3 | -6155.0 |
| PAK2 | -6147.0 |
| WIPF3 | -6144.0 |
| H2AC15 | -6141.0 |
| PRKCSH | -6110.0 |
| CCNT2 | -6104.0 |
| CNBP | -6102.0 |
| NMI | -6068.0 |
| RPL35 | -6032.0 |
| UBAP1 | -6026.0 |
| RPL23A | -6024.0 |
| UBE2N | -6001.0 |
| DAD1 | -5977.0 |
| PTPN11 | -5953.0 |
| JUN | -5900.0 |
| H3C8 | -5893.0 |
| RPL27 | -5884.0 |
| EEF1A1 | -5856.0 |
| RPS11 | -5850.0 |
| XPO1 | -5829.0 |
| CDK7 | -5825.0 |
| CTSG | -5802.0 |
| TAF10 | -5784.0 |
| RPL29 | -5778.0 |
| TOMM70 | -5766.0 |
| SUPT16H | -5742.0 |
| GNG4 | -5719.0 |
| IMPDH2 | -5688.0 |
| TUBAL3 | -5667.0 |
| ADCY2 | -5659.0 |
| CANX | -5651.0 |
| H4C12 | -5632.0 |
| BCL2L1 | -5613.0 |
| HSP90AA1 | -5595.0 |
| VPS18 | -5577.0 |
| PSME3 | -5547.0 |
| H2AC21 | -5508.0 |
| SH3GL3 | -5506.0 |
| MAP3K7 | -5505.0 |
| SEC23A | -5498.0 |
| KPNA1 | -5353.0 |
| RPL22L1 | -5348.0 |
| PDCD6IP | -5325.0 |
| RPS27 | -5318.0 |
| TCEA1 | -5305.0 |
| MNAT1 | -5299.0 |
| CHMP5 | -5293.0 |
| GEMIN6 | -5280.0 |
| NOD1 | -5215.0 |
| H4C2 | -5172.0 |
| GPC2 | -5169.0 |
| FYN | -5164.0 |
| IFNB1 | -5159.0 |
| H2BC15 | -5136.0 |
| RPL12 | -5128.0 |
| IFNAR1 | -5109.0 |
| CDC42 | -5100.0 |
| FAU | -5092.0 |
| UBB | -5059.0 |
| ATP1A1 | -5034.0 |
| NUP153 | -5033.0 |
| TUBB4A | -5016.0 |
| PIK3R4 | -4993.0 |
| HSP90AB1 | -4988.0 |
| HMGA1 | -4986.0 |
| NMT2 | -4958.0 |
| UBA52 | -4934.0 |
| MASP1 | -4889.0 |
| VPS41 | -4881.0 |
| CCNH | -4866.0 |
| H4C4 | -4850.0 |
| CCNT1 | -4829.0 |
| H3C1 | -4828.0 |
| RIPK2 | -4816.0 |
| PSMB10 | -4811.0 |
| RAN | -4756.0 |
| EED | -4751.0 |
| MVB12A | -4746.0 |
| H2BC8 | -4740.0 |
| CHMP6 | -4716.0 |
| GNG8 | -4706.0 |
| PSMA6 | -4676.0 |
| POLR2C | -4652.0 |
| CBL | -4646.0 |
| TAF5 | -4614.0 |
| CBX1 | -4602.0 |
| EP300 | -4543.0 |
| PLK2 | -4511.0 |
| ENTPD1 | -4485.0 |
| RPL7 | -4473.0 |
| PALS1 | -4465.0 |
| PSMD9 | -4450.0 |
| HLA-F | -4424.0 |
| H4C9 | -4394.0 |
| GRB2 | -4383.0 |
| DDX5 | -4382.0 |
| GPC6 | -4328.0 |
| BRK1 | -4312.0 |
| TAF13 | -4272.0 |
| DYNC1I1 | -4260.0 |
| H3C6 | -4228.0 |
| GJA1 | -4176.0 |
| RPL26L1 | -4159.0 |
| GPS2 | -4154.0 |
| RPL13A | -4097.5 |
| GRSF1 | -4077.0 |
| GNAI3 | -4041.0 |
| CXCR4 | -4018.0 |
| ARPC2 | -4010.0 |
| H2BC12 | -3934.0 |
| ACTG1 | -3932.0 |
| ANTXR1 | -3919.0 |
| SUZ12 | -3901.0 |
| WASF3 | -3860.0 |
| ADCY8 | -3858.0 |
| PIK3C3 | -3842.0 |
| PSMD5 | -3781.0 |
| SIGMAR1 | -3740.0 |
| CYBA | -3735.0 |
| XRCC6 | -3692.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| ARF1 | -3590.0 |
| TBK1 | -3566.0 |
| ARPC4 | -3537.0 |
| VAV1 | -3497.0 |
| PSMC2 | -3476.0 |
| NLRP12 | -3460.0 |
| PSMA2 | -3445.0 |
| NUP155 | -3436.0 |
| RPS5 | -3417.0 |
| IMPDH1 | -3416.0 |
| CLTC | -3396.0 |
| ANO2 | -3392.0 |
| PSMD6 | -3380.0 |
| EPS15 | -3319.0 |
| GSK3A | -3287.0 |
| CHMP2A | -3286.0 |
| PSMB4 | -3285.0 |
| WIPF2 | -3240.0 |
| MYO10 | -3215.0 |
| RBX1 | -3208.0 |
| FXYD6 | -3173.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| NCKAP1 | -3105.0 |
| GTF2H5 | -3090.0 |
| PSMC3 | -3081.0 |
| WASL | -3071.0 |
| P2RX7 | -3021.0 |
| MAP2K7 | -2991.0 |
| MGAT2 | -2981.5 |
| RPL36AL | -2981.5 |
| GNG7 | -2965.0 |
| SV2A | -2959.0 |
| ACTR3 | -2948.0 |
| VPS45 | -2926.0 |
| RPL14 | -2908.0 |
| TPR | -2890.0 |
| TXNRD1 | -2861.0 |
| SH3GL2 | -2797.0 |
| RPS12 | -2751.0 |
| IL1R1 | -2714.0 |
| POLR2H | -2710.0 |
| RPS27A | -2707.0 |
| RBBP4 | -2675.0 |
| PATJ | -2667.0 |
| RAB5A | -2656.0 |
| JAK3 | -2640.0 |
| MGAT1 | -2602.0 |
| RPS21 | -2596.0 |
| STING1 | -2576.0 |
| KEAP1 | -2567.0 |
| KPNA5 | -2456.0 |
| NUP85 | -2443.0 |
| H4C16 | -2435.0 |
| CTNNB1 | -2416.0 |
| PRKAR1A | -2409.0 |
| PSIP1 | -2394.0 |
| WNT5A | -2385.0 |
| STT3A | -2373.0 |
| TXNIP | -2326.0 |
| ELOA | -2318.0 |
| EGFR | -2253.0 |
| AHCYL1 | -2205.0 |
| VPS39 | -2133.0 |
| H3C11 | -2128.0 |
| H2AC1 | -2117.0 |
| CAV1 | -2025.0 |
| ZDHHC20 | -2004.0 |
| GOLGA7 | -1972.0 |
| PKLR | -1968.0 |
| NUP98 | -1888.0 |
| LYN | -1822.0 |
| RUNX1 | -1819.0 |
| H2BC21 | -1800.0 |
| STX1A | -1797.0 |
| PSMB6 | -1764.0 |
| GTF2A1 | -1752.0 |
| RPL10A | -1720.0 |
| NR3C1 | -1687.0 |
| MAVS | -1656.0 |
| RCAN3 | -1641.0 |
| SAR1B | -1634.0 |
| ITCH | -1575.0 |
| POLR2G | -1573.0 |
| RPL24 | -1557.0 |
| TUBA4A | -1528.0 |
| NFKB1 | -1523.0 |
| FUT8 | -1521.0 |
| HLA-G | -1457.0 |
| TMPRSS2 | -1446.0 |
| AP1M2 | -1441.0 |
| VPS33A | -1440.0 |
| ADCY6 | -1430.0 |
| TBL1XR1 | -1412.0 |
| SNRPF | -1314.0 |
| HSPG2 | -1279.0 |
| GNAI2 | -1251.0 |
| VAV2 | -1229.0 |
| VAMP2 | -1180.0 |
| NCK1 | -1111.0 |
| PPIH | -1067.0 |
| SUMO1 | -1063.0 |
| PSMC6 | -1062.0 |
| ATP6V1H | -1033.0 |
| CBLL1 | -1013.0 |
| GNG11 | -1008.0 |
| RELA | -982.0 |
| ADORA2B | -937.0 |
| SV2C | -899.0 |
| RPL30 | -893.0 |
| AP2S1 | -816.0 |
| IPO5 | -800.0 |
| SYK | -772.0 |
| GNG5 | -741.0 |
| IRF7 | -707.0 |
| NMT1 | -700.0 |
| PRMT1 | -671.0 |
| ZDHHC2 | -650.0 |
| TUBB3 | -637.0 |
| POLR2K | -624.0 |
| PABPN1 | -616.0 |
| DNAJC3 | -592.0 |
| XRCC4 | -571.0 |
| ADCY1 | -535.0 |
| NCOR1 | -527.0 |
| FXYD4 | -510.0 |
| TJP1 | -487.0 |
| YES1 | -478.0 |
| RPS24 | -456.0 |
| H2AC20 | -444.0 |
| VTA1 | -443.0 |
| RPL6 | -400.0 |
| KPNA7 | -385.0 |
| POLR2L | -372.0 |
| CHMP3 | -349.0 |
| MAP2K6 | -307.0 |
| NELFB | -301.0 |
| AP1S3 | -259.0 |
| ELMO2 | -247.0 |
| NUP58 | -237.0 |
| ST6GALNAC2 | -207.0 |
| H4C1 | -204.0 |
| PRKAR2B | -189.0 |
| GALNT1 | -155.0 |
| BTRC | -46.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| IL6R | 18.0 |
| SEC13 | 66.0 |
| HDAC1 | 78.0 |
| PACS1 | 85.0 |
| PPIG | 217.0 |
| ST3GAL2 | 241.0 |
| ANO9 | 242.0 |
| SRPK1 | 260.0 |
| MGAT4A | 278.0 |
| PSMA1 | 296.0 |
| RPS15 | 320.0 |
| DDOST | 322.0 |
| MTA3 | 331.0 |
| APP | 339.0 |
| SIKE1 | 357.0 |
| VPS25 | 387.0 |
| ANO1 | 424.0 |
| GANAB | 426.0 |
| NUP35 | 446.0 |
| PML | 514.0 |
| MYO1C | 544.0 |
| H2BC4 | 586.0 |
| RCOR1 | 593.0 |
| C3AR1 | 605.0 |
| H2AC12 | 616.0 |
| CDK9 | 714.0 |
| ROCK1 | 745.0 |
| RAB7A | 770.0 |
| RPS20 | 828.0 |
| CSNK1A1 | 829.0 |
| VPS11 | 874.0 |
| ACTR2 | 891.0 |
| HNRNPK | 936.0 |
| MAPK1 | 981.0 |
| SNF8 | 1007.0 |
| ERCC2 | 1041.0 |
| PRKACB | 1045.0 |
| PRKAR2A | 1057.0 |
| VAV3 | 1082.0 |
| H2BC26 | 1116.0 |
| TRIM28 | 1125.0 |
| NCBP1 | 1140.0 |
| SLC25A4 | 1169.0 |
| SYT1 | 1211.0 |
| DYNC1LI1 | 1214.0 |
| VCP | 1230.0 |
| YWHAH | 1231.0 |
| ITGA4 | 1255.0 |
| GNB5 | 1276.0 |
| ST3GAL1 | 1319.0 |
| NUP88 | 1334.0 |
| PLCG2 | 1363.0 |
| GNAS | 1407.0 |
| PDCD1 | 1408.0 |
| NDC1 | 1422.0 |
| GTF2E2 | 1432.0 |
| ABL1 | 1449.0 |
| FZD7 | 1451.0 |
| PSMB7 | 1455.0 |
| HLA-C | 1459.0 |
| ELOC | 1468.0 |
| H2AC16 | 1482.0 |
| NUP214 | 1526.0 |
| PTK2 | 1567.0 |
| PSME4 | 1583.0 |
| PSMB5 | 1628.0 |
| TAF1L | 1652.0 |
| LARP1 | 1707.0 |
| FNTB | 1724.0 |
| TAF7 | 1738.0 |
| POM121C | 1782.0 |
| YWHAB | 1794.0 |
| G3BP2 | 1797.0 |
| ANO6 | 1844.0 |
| NRP1 | 1855.0 |
| NEDD4L | 1865.0 |
| GTF2A2 | 1895.0 |
| TUBA1C | 1901.0 |
| PARP14 | 1930.0 |
| ANO5 | 1941.0 |
| STAM2 | 1943.0 |
| TXN | 1959.0 |
| SP1 | 2034.0 |
| PHF21A | 2035.0 |
| PRKACA | 2053.0 |
| KDM1A | 2071.0 |
| HAVCR1 | 2089.0 |
| MYH9 | 2092.0 |
| GNB4 | 2096.0 |
| XRCC5 | 2102.0 |
| GEMIN7 | 2106.0 |
| CDH1 | 2121.0 |
| GTF2H1 | 2125.0 |
| EZH2 | 2131.0 |
| HLA-A | 2160.0 |
| ATP1B3 | 2174.0 |
| DVL1 | 2218.0 |
| VEGFA | 2243.0 |
| RPL21 | 2253.0 |
| RNGTT | 2283.0 |
| FNTA | 2285.0 |
| CD28 | 2290.0 |
| NUP188 | 2308.0 |
| CD247 | 2343.0 |
| VPS37A | 2358.0 |
| ST6GALNAC4 | 2369.0 |
| ST6GALNAC3 | 2370.0 |
| GNGT2 | 2385.0 |
| ANO8 | 2438.0 |
| GNG13 | 2519.0 |
| SEC24C | 2525.0 |
| VPS4B | 2560.0 |
| MET | 2643.0 |
| NCBP2 | 2717.0 |
| YWHAQ | 2738.0 |
| WIPF1 | 2787.0 |
| MAP2K4 | 2792.0 |
| H2AC25 | 2805.0 |
| ITPR2 | 2849.0 |
| YWHAG | 2854.0 |
| COMT | 2863.0 |
| CALM1 | 2882.0 |
| PARP4 | 2905.0 |
| IRAK2 | 2911.0 |
| NUP54 | 2991.0 |
| HDAC2 | 2992.0 |
| ELMO1 | 3000.0 |
| KPNA2 | 3004.0 |
| TUBB2B | 3025.0 |
| NLRP3 | 3033.0 |
| SEC24D | 3072.0 |
| ARPC1A | 3086.0 |
| IFNGR2 | 3107.0 |
| DAXX | 3128.0 |
| DYNC1I2 | 3148.0 |
| ADCY9 | 3190.0 |
| VPS36 | 3218.0 |
| SDC2 | 3237.0 |
| UVRAG | 3259.0 |
| AP2B1 | 3275.0 |
| EIF2AK2 | 3299.0 |
| KPNA3 | 3312.0 |
| EEF2 | 3343.0 |
| MTA2 | 3356.0 |
| NUP133 | 3395.0 |
| IFNGR1 | 3407.0 |
| IFNA2 | 3413.0 |
| GNAT3 | 3432.0 |
| NFE2L2 | 3449.0 |
| TAF3 | 3452.0 |
| MEFV | 3503.0 |
| NUP62 | 3527.0 |
| RPLP2 | 3532.0 |
| SEC24B | 3564.0 |
| RPL31 | 3600.0 |
| PPIB | 3603.0 |
| UBE2I | 3611.0 |
| CD9 | 3663.0 |
| TUBB4B | 3664.0 |
| RHBDF2 | 3708.0 |
| ABI2 | 3709.0 |
| STAT1 | 3784.0 |
| TRIM27 | 3815.0 |
| ELL | 3831.0 |
| CASP1 | 3859.0 |
| H2AC6 | 3867.0 |
| PCBP2 | 3870.0 |
| AGRN | 3872.0 |
| AP1S1 | 3873.0 |
| FKBP4 | 3886.0 |
| ENTPD5 | 3889.0 |
| GTF2F1 | 3903.0 |
| PLCG1 | 3910.0 |
| ZDHHC8 | 3958.0 |
| FKBP1A | 3983.0 |
| GTF2F2 | 3988.0 |
| DOCK2 | 4006.0 |
| BRMS1 | 4051.0 |
| PARP8 | 4109.0 |
| SRC | 4122.0 |
| RCC1 | 4152.0 |
| CRB3 | 4165.0 |
| BAIAP2 | 4194.0 |
| IL18 | 4213.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| RAE1 | 4292.0 |
| LIG4 | 4330.0 |
| IL1B | 4347.0 |
| SMN1 | 4401.5 |
| SMN2 | 4401.5 |
| SRPK2 | 4414.0 |
| RANBP1 | 4449.0 |
| NT5E | 4452.0 |
| TUBA3D | 4458.0 |
| SNAP25 | 4464.0 |
| DPEP2 | 4474.0 |
| ADCY5 | 4502.0 |
| MGAT5 | 4503.0 |
| IL17RC | 4535.0 |
| WASF1 | 4566.0 |
| NUP93 | 4585.0 |
| AAAS | 4604.0 |
| ADAM17 | 4611.0 |
| CREBBP | 4616.0 |
| STAM | 4622.0 |
| RPL19 | 4741.0 |
| SOS1 | 4758.0 |
| RPS25 | 4809.0 |
| MAPK14 | 4829.0 |
| ST3GAL3 | 4830.0 |
| AKT2 | 4840.0 |
| RNF135 | 4866.0 |
| MYO5A | 4875.0 |
| TLR2 | 4879.0 |
| ITPR1 | 4882.0 |
| ROCK2 | 4931.0 |
| DOCK1 | 4967.0 |
| MASP2 | 4978.0 |
| PSMD1 | 5004.0 |
| GATAD2A | 5020.0 |
| GGT1 | 5024.0 |
| MYO9B | 5078.0 |
| ELOB | 5112.0 |
| MAPK3 | 5125.0 |
| CRK | 5157.0 |
| NOS2 | 5178.0 |
| POLR2D | 5189.0 |
| NUP205 | 5228.0 |
| PSMF1 | 5263.0 |
| VPS28 | 5306.0 |
| MAN1B1 | 5310.0 |
| IKBKB | 5332.0 |
| DUSP16 | 5337.0 |
| CHD4 | 5360.0 |
| MGAT4C | 5463.0 |
| STAT2 | 5480.0 |
| LIG1 | 5490.0 |
| MAP1LC3B | 5514.0 |
| PARP9 | 5521.0 |
| NCKIPSD | 5547.0 |
| ZBP1 | 5563.0 |
| TAB2 | 5618.0 |
| NFKBIA | 5710.0 |
| POLR2B | 5721.0 |
| ARPC1B | 5733.0 |
| ZDHHC3 | 5739.0 |
| GTF2H4 | 5742.0 |
| ANO7 | 5746.0 |
| RPL22 | 5772.0 |
| SAP30L | 5794.0 |
| JAK2 | 5800.0 |
| TAF4B | 5845.0 |
| ITGB1 | 5860.0 |
| IFNA7 | 5870.0 |
| CD4 | 5874.0 |
| SDC1 | 5875.0 |
| RANBP2 | 5895.0 |
| MOGS | 5934.0 |
| DYNLL2 | 5970.0 |
| SNRPB | 5980.0 |
| NELFCD | 5990.0 |
| TUBA4B | 6021.0 |
| GNG12 | 6046.0 |
| FXYD1 | 6098.0 |
| SUDS3 | 6117.0 |
| GNAI1 | 6135.0 |
| SNRPE | 6152.0 |
| EDEM2 | 6162.0 |
| AP2A1 | 6218.0 |
| ZDHHC11 | 6233.0 |
| CHMP7 | 6267.0 |
| RIPK3 | 6287.0 |
| RPS23 | 6291.0 |
| GSDMD | 6308.0 |
| RAC1 | 6313.0 |
| GNB1 | 6330.0 |
| ITPR3 | 6360.0 |
| CREB1 | 6384.0 |
| GTF2B | 6401.0 |
| VPS4A | 6507.0 |
| RANGAP1 | 6511.0 |
| PDPK1 | 6520.0 |
| H3C12 | 6531.0 |
| SMAD3 | 6552.0 |
| VPS33B | 6587.0 |
| CTNND1 | 6661.0 |
| IFNA13 | 6676.0 |
| VPS16 | 6697.0 |
| VPS37C | 6765.0 |
| MYH2 | 6768.0 |
| TRAF3 | 6798.0 |
| PSMD12 | 6808.0 |
| CYFIP2 | 6832.0 |
| ENO1 | 6907.0 |
| ST3GAL4 | 6914.0 |
| TYK2 | 6978.0 |
| HDAC3 | 6994.0 |
| POLR2A | 7019.0 |
| PSME1 | 7056.0 |
| POM121 | 7060.0 |
| SUPT5H | 7080.0 |
| TUBB2A | 7081.0 |
| P2RX4 | 7177.0 |
| CHMP4A | 7212.0 |
| IL17A | 7278.0 |
| IFNAR2 | 7325.0 |
| ADCY7 | 7350.0 |
| FURIN | 7428.0 |
| H3C2 | 7476.0 |
| TAF4 | 7507.0 |
| CYFIP1 | 7535.0 |
| NELFE | 7577.0 |
| TKFC | 7585.0 |
| CCNK | 7604.0 |
| AKT3 | 7612.0 |
| NOXO1 | 7638.0 |
| GNB3 | 7674.0 |
| RIPK1 | 7713.0 |
| VPS37B | 7718.0 |
| SH3GL1 | 7772.0 |
| TUBB6 | 7778.0 |
| SERPINE1 | 7837.0 |
| MBD3 | 7891.0 |
| GPC1 | 7903.0 |
| MAPK8 | 7911.0 |
| RB1 | 7933.0 |
| PARP6 | 7951.0 |
| AKT1 | 7961.0 |
| PSMA8 | 8011.0 |
| SDC4 | 8021.0 |
| ST6GAL1 | 8043.0 |
| CTSL | 8050.0 |
| STX1B | 8110.0 |
| MAN2A1 | 8207.0 |
| ANTXR2 | 8217.0 |
| ATP1A4 | 8232.0 |
| CEBPD | 8238.0 |
| PSMD14 | 8243.0 |
| ANO10 | 8254.0 |
| CPSF4 | 8260.0 |
| PARP16 | 8271.0 |
| CUL5 | 8279.0 |
| GEMIN4 | 8340.0 |
| ELOA2 | 8377.0 |
| CYSLTR2 | 8389.0 |
| PRKACG | 8490.0 |
| TUBA8 | 8510.0 |
| IKBKE | 8511.0 |
| CHUK | 8515.0 |
| GNAZ | 8614.0 |
| C3 | 8652.0 |
| RNF213 | 8660.0 |
| AP2A2 | 8716.0 |
| ERCC3 | 8718.0 |
| CHD3 | 8734.0 |
| MAP2K2 | 8844.0 |
| MVB12B | 8883.0 |
| H4C13 | 8916.0 |
| FCGR2A | 8934.0 |
| AP1B1 | 9014.0 |
| DYNC1H1 | 9059.0 |
| IFNA5 | 9072.0 |
| AP1M1 | 9075.0 |
| NCOR2 | 9123.0 |
| TAB1 | 9164.0 |
| TAF2 | 9219.0 |
| DPEP1 | 9264.0 |
| IL17RA | 9277.0 |
| PRKAR1B | 9290.0 |
| MGAT4B | 9361.0 |
| PSMD8 | 9422.0 |
| NUP210 | 9431.0 |
| TUBA3C | 9441.0 |
| SYT2 | 9447.0 |
| CHMP2B | 9475.0 |
| IL17F | 9489.0 |
| HGS | 9505.0 |
| MTA1 | 9526.0 |
| AP2M1 | 9541.0 |
| ADCY3 | 9562.0 |
| DYNC1LI2 | 9584.0 |
| CUL3 | 9592.0 |
| NELFA | 9821.0 |
| CTDP1 | 9874.0 |
| PSMD2 | 9891.0 |
| RPL3L | 9915.0 |
| IFNA6 | 9953.0 |
| ADCY4 | 9971.0 |
| FXYD2 | 10020.0 |
| NOD2 | 10035.0 |
| RPL10L | 10108.0 |
| ATP1A2 | 10206.0 |
| BRD4 | 10282.0 |
| TUBB1 | 10462.0 |
| APOBEC3G | 10466.0 |
| FCGR3A | 10594.0 |
| PSMB11 | 10612.0 |
| DVL3 | 10632.0 |
| GNGT1 | 10668.0 |
| IFNA14 | 10963.0 |
| SFTPD | 10978.0 |
| MBL2 | 11015.0 |
REACTOME_ACTIVATION_OF_THE_MRNA_UPON_BINDING_OF_THE_CAP_BINDING_COMPLEX_AND_EIFS_AND_SUBSEQUENT_BINDING_TO_43S
| 1150 | |
|---|---|
| set | REACTOME_ACTIVATION_OF_THE_MRNA_UPON_BINDING_OF_THE_CAP_BINDING_COMPLEX_AND_EIFS_AND_SUBSEQUENT_BINDING_TO_43S |
| setSize | 53 |
| pANOVA | 4.23e-08 |
| s.dist | -0.435 |
| p.adjustANOVA | 2.9e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| EIF3G | -10319 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPS14 | -9401 |
| EIF3F | -9276 |
| RPS10 | -9091 |
| RPS3A | -8975 |
| RPS3 | -8834 |
| RPSA | -8467 |
| EIF3J | -8418 |
| EIF2S1 | -8073 |
| RPS9 | -7845 |
| RPS19 | -7779 |
| RPS2 | -7738 |
| RPS8 | -7382 |
| RPS7 | -7130 |
| RPS15A | -7015 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| EIF3G | -10319 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPS14 | -9401 |
| EIF3F | -9276 |
| RPS10 | -9091 |
| RPS3A | -8975 |
| RPS3 | -8834 |
| RPSA | -8467 |
| EIF3J | -8418 |
| EIF2S1 | -8073 |
| RPS9 | -7845 |
| RPS19 | -7779 |
| RPS2 | -7738 |
| RPS8 | -7382 |
| RPS7 | -7130 |
| RPS15A | -7015 |
| RPS29 | -6975 |
| EIF3I | -6950 |
| EIF2S2 | -6392 |
| RPS13 | -6339 |
| EIF3L | -6206 |
| RPS27L | -6200 |
| RPS11 | -5850 |
| EIF4H | -5819 |
| EIF4E | -5369 |
| RPS27 | -5318 |
| EIF4A1 | -5317 |
| FAU | -5092 |
| EIF4EBP1 | -5052 |
| EIF3B | -4157 |
| EIF4A2 | -3743 |
| EIF3E | -3449 |
| RPS5 | -3417 |
| EIF4B | -3079 |
| RPS12 | -2751 |
| RPS27A | -2707 |
| RPS21 | -2596 |
| EIF3M | -1602 |
| EIF3D | -955 |
| RPS24 | -456 |
| RPS15 | 320 |
| EIF3K | 546 |
| RPS20 | 828 |
| EIF4G1 | 4214 |
| RPS25 | 4809 |
| EIF3H | 5737 |
| EIF3A | 6273 |
| RPS23 | 6291 |
| PABPC1 | 6426 |
REACTOME_DNA_METHYLATION
| 858 | |
|---|---|
| set | REACTOME_DNA_METHYLATION |
| setSize | 58 |
| pANOVA | 6.43e-08 |
| s.dist | -0.41 |
| p.adjustANOVA | 4.22e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| UHRF1 | -2453.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| DNMT3B | 1176.0 |
| DNMT3L | 3346.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| DNMT1 | 5467.0 |
| DNMT3A | 6119.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| H4C13 | 8916.0 |
REACTOME_SIGNALING_BY_ROBO_RECEPTORS
| 605 | |
|---|---|
| set | REACTOME_SIGNALING_BY_ROBO_RECEPTORS |
| setSize | 206 |
| pANOVA | 7.05e-08 |
| s.dist | -0.218 |
| p.adjustANOVA | 4.45e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291 |
| RBM8A | -10237 |
| PFN1 | -10107 |
| RPL18 | -10087 |
| RPL23 | -9997 |
| RPL35A | -9988 |
| RPL38 | -9969 |
| RPL11 | -9821 |
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPL27A | -9667 |
| RPL34 | -9611 |
| RPL26 | -9600 |
| RPL28 | -9548 |
| PSMD13 | -9525 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPL3 | -9459 |
| RPS14 | -9401 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPL39L | -10291.0 |
| RBM8A | -10237.0 |
| PFN1 | -10107.0 |
| RPL18 | -10087.0 |
| RPL23 | -9997.0 |
| RPL35A | -9988.0 |
| RPL38 | -9969.0 |
| RPL11 | -9821.0 |
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPL27A | -9667.0 |
| RPL34 | -9611.0 |
| RPL26 | -9600.0 |
| RPL28 | -9548.0 |
| PSMD13 | -9525.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPL3 | -9459.0 |
| RPS14 | -9401.0 |
| PSMB8 | -9275.0 |
| RPL9 | -9273.0 |
| RPL5 | -9093.0 |
| RPS10 | -9091.0 |
| PSMA7 | -9081.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| RPL13 | -8701.0 |
| RPLP1 | -8700.0 |
| PSMA3 | -8660.0 |
| RPL32 | -8650.0 |
| RPSA | -8467.0 |
| PSMC5 | -8460.0 |
| PSMD4 | -8253.0 |
| HOXA2 | -8170.0 |
| UBC | -8040.0 |
| RPLP0 | -7893.0 |
| RPS9 | -7845.0 |
| RPL17 | -7840.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPL4 | -7711.0 |
| PSMB2 | -7696.0 |
| RPL36 | -7654.0 |
| RPL41 | -7424.0 |
| RPS8 | -7382.0 |
| RPL15 | -7360.0 |
| PSME2 | -7342.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| RPS7 | -7130.0 |
| PSMD7 | -7104.0 |
| CAP1 | -7080.0 |
| RPL37A | -7049.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| RPL7A | -6925.0 |
| ENAH | -6920.0 |
| RPL18A | -6838.0 |
| RPL37 | -6792.0 |
| PSMB9 | -6737.0 |
| PSMC4 | -6700.0 |
| NELL2 | -6670.0 |
| PSMA5 | -6442.0 |
| RPL8 | -6347.0 |
| RPS13 | -6339.0 |
| PSMD11 | -6284.0 |
| RPS27L | -6200.0 |
| PAK2 | -6147.0 |
| RPL35 | -6032.0 |
| RPL23A | -6024.0 |
| RPL27 | -5884.0 |
| RPS11 | -5850.0 |
| DCC | -5827.0 |
| RPL29 | -5778.0 |
| PSME3 | -5547.0 |
| ROBO1 | -5453.0 |
| RPL22L1 | -5348.0 |
| RPS27 | -5318.0 |
| LDB1 | -5289.0 |
| RPL12 | -5128.0 |
| CDC42 | -5100.0 |
| FAU | -5092.0 |
| UBB | -5059.0 |
| PPP3CB | -5002.0 |
| UBA52 | -4934.0 |
| ETF1 | -4857.0 |
| PSMB10 | -4811.0 |
| PSMA6 | -4676.0 |
| UPF2 | -4474.0 |
| RPL7 | -4473.0 |
| PSMD9 | -4450.0 |
| RPL26L1 | -4159.0 |
| RPL13A | -4097.5 |
| CXCR4 | -4018.0 |
| PSMD5 | -3781.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| RPS5 | -3417.0 |
| PSMD6 | -3380.0 |
| PSMB4 | -3285.0 |
| MAGOHB | -3262.0 |
| RBX1 | -3208.0 |
| PSMC3 | -3081.0 |
| ISL1 | -2988.0 |
| RPL36AL | -2981.5 |
| SLIT3 | -2960.0 |
| RPL14 | -2908.0 |
| RPS12 | -2751.0 |
| RHOA | -2716.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| LHX9 | -2533.0 |
| PFN2 | -2227.0 |
| ROBO2 | -2178.0 |
| USP33 | -2101.0 |
| PSMB6 | -1764.0 |
| RPL10A | -1720.0 |
| PAK1 | -1718.0 |
| PRKCA | -1685.0 |
| NCK2 | -1607.0 |
| RPL24 | -1557.0 |
| MSI1 | -1508.0 |
| CAP2 | -1305.0 |
| PAK5 | -1271.0 |
| UPF3A | -1262.0 |
| NCK1 | -1111.0 |
| PSMC6 | -1062.0 |
| RPL30 | -893.0 |
| FLRT3 | -491.0 |
| RPS24 | -456.0 |
| RPL6 | -400.0 |
| NTN1 | -383.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| PSMA1 | 296.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| CLASP2 | 930.0 |
| PRKACB | 1045.0 |
| PRKAR2A | 1057.0 |
| NCBP1 | 1140.0 |
| ROBO3 | 1249.0 |
| ABL1 | 1449.0 |
| PSMB7 | 1455.0 |
| ELOC | 1468.0 |
| PSME4 | 1583.0 |
| PSMB5 | 1628.0 |
| SLIT2 | 1798.0 |
| NRP1 | 1855.0 |
| LHX2 | 1920.0 |
| SRGAP1 | 1935.5 |
| PRKACA | 2053.0 |
| SLIT1 | 2136.0 |
| LHX4 | 2151.0 |
| RPL21 | 2253.0 |
| CLASP1 | 2683.0 |
| NCBP2 | 2717.0 |
| MAGOH | 3043.0 |
| RPLP2 | 3532.0 |
| RPL31 | 3600.0 |
| CXCL12 | 3839.0 |
| SRGAP3 | 3857.0 |
| ARHGAP39 | 3917.0 |
| ABL2 | 3944.0 |
| VASP | 4114.0 |
| SRC | 4122.0 |
| CASC3 | 4135.0 |
| LHX3 | 4164.0 |
| EIF4G1 | 4214.0 |
| SOS2 | 4228.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| CUL2 | 4451.0 |
| RNPS1 | 4625.0 |
| RPL19 | 4741.0 |
| SOS1 | 4758.0 |
| RPS25 | 4809.0 |
| PSMD1 | 5004.0 |
| MYO9B | 5078.0 |
| ELOB | 5112.0 |
| PSMF1 | 5263.0 |
| PAK6 | 5468.0 |
| RPL22 | 5772.0 |
| EVL | 6131.0 |
| RPS23 | 6291.0 |
| RAC1 | 6313.0 |
| PABPC1 | 6426.0 |
| PSMD12 | 6808.0 |
| PSME1 | 7056.0 |
| EIF4A3 | 7144.0 |
| SRGAP2 | 7335.0 |
| GSPT1 | 7518.0 |
| GPC1 | 7903.0 |
| PSMA8 | 8011.0 |
| PSMD14 | 8243.0 |
| AKAP5 | 8365.0 |
| PRKACG | 8490.0 |
| DAG1 | 8601.0 |
| PAK4 | 9136.0 |
| PSMD8 | 9422.0 |
| ZSWIM8 | 9838.0 |
| PSMD2 | 9891.0 |
| RPL3L | 9915.0 |
| RPL10L | 10108.0 |
| PSMB11 | 10612.0 |
REACTOME_SENESCENCE_ASSOCIATED_SECRETORY_PHENOTYPE_SASP
| 502 | |
|---|---|
| set | REACTOME_SENESCENCE_ASSOCIATED_SECRETORY_PHENOTYPE_SASP |
| setSize | 104 |
| pANOVA | 7.62e-08 |
| s.dist | -0.305 |
| p.adjustANOVA | 4.63e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| IL6 | -9934.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| UBE2S | -9874.0 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| IL1A | -8881.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| IL6 | -9934.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| UBE2S | -9874.0 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| IL1A | -8881.0 |
| CEBPB | -8501.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| UBC | -8040.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| CDKN2C | -7371.0 |
| H4C6 | -7171.0 |
| CDC16 | -7166.0 |
| CDC26 | -6803.0 |
| CDKN2D | -6581.0 |
| H2BC11 | -6443.0 |
| ANAPC1 | -6309.0 |
| FOS | -6098.0 |
| JUN | -5900.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| UBB | -5059.0 |
| UBA52 | -4934.0 |
| CDKN2A | -4928.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| CDKN2B | -4480.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| ANAPC5 | -3877.0 |
| UBE2E1 | -3620.0 |
| H2BC6 | -3615.0 |
| ANAPC10 | -3390.0 |
| CDKN1B | -3253.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| MAPK7 | -2978.0 |
| IGFBP7 | -2842.0 |
| RPS27A | -2707.0 |
| CDK6 | -2634.0 |
| H4C16 | -2435.0 |
| ANAPC16 | -2166.0 |
| H3C11 | -2128.0 |
| CCNA2 | -1962.0 |
| H2BC21 | -1800.0 |
| NFKB1 | -1523.0 |
| ANAPC11 | -1511.0 |
| CDK2 | -1214.0 |
| H3-3A | -1031.0 |
| RELA | -982.0 |
| H3-3B | -813.0 |
| CCNA1 | -706.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| CDKN1A | -65.0 |
| H2BC4 | 586.0 |
| MAPK1 | 981.0 |
| CDC27 | 1034.0 |
| H2BC26 | 1116.0 |
| ANAPC15 | 1129.0 |
| RPS6KA1 | 2303.0 |
| ANAPC7 | 3281.0 |
| CDC23 | 3434.0 |
| H2AC6 | 3867.0 |
| RPS6KA2 | 3972.0 |
| STAT3 | 4311.0 |
| H2AZ2 | 4572.0 |
| MAPK3 | 5125.0 |
| EHMT1 | 5378.0 |
| UBE2C | 5682.0 |
| UBE2D1 | 6348.0 |
| CXCL8 | 6479.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| EHMT2 | 7491.0 |
| ANAPC4 | 7971.0 |
| FZR1 | 8219.0 |
| H4C13 | 8916.0 |
| VENTX | 9003.0 |
| ANAPC2 | 9292.0 |
REACTOME_PRC2_METHYLATES_HISTONES_AND_DNA
| 440 | |
|---|---|
| set | REACTOME_PRC2_METHYLATES_HISTONES_AND_DNA |
| setSize | 65 |
| pANOVA | 9.02e-08 |
| s.dist | -0.383 |
| p.adjustANOVA | 5.15e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| AEBP2 | -7517.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| EED | -4751.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| SUZ12 | -3901.0 |
| PHF1 | -3724.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| RBBP4 | -2675.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| DNMT3B | 1176.0 |
| JARID2 | 1891.0 |
| EZH2 | 2131.0 |
| H2AC6 | 3867.0 |
| PHF19 | 4175.0 |
| MTF2 | 4313.0 |
| H2AZ2 | 4572.0 |
| DNMT1 | 5467.0 |
| DNMT3A | 6119.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| H4C13 | 8916.0 |
REACTOME_MITOCHONDRIAL_TRANSLATION
| 874 | |
|---|---|
| set | REACTOME_MITOCHONDRIAL_TRANSLATION |
| setSize | 93 |
| pANOVA | 9.1e-08 |
| s.dist | -0.321 |
| p.adjustANOVA | 5.15e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| TUFM | -9885 |
| MRPS11 | -9876 |
| MRPL17 | -9794 |
| MRPL4 | -9305 |
| MRPS18A | -9260 |
| MRPL51 | -9233 |
| MRPL53 | -9185 |
| MRPL37 | -9150 |
| MRPL13 | -9145 |
| MRPL32 | -8923 |
| MRPL2 | -8848 |
| MRPL46 | -8605 |
| MTFMT | -8556 |
| MRPS31 | -8507 |
| MRPL15 | -8425 |
| MRPL58 | -8421 |
| MRPS15 | -8403 |
| MRPS7 | -8395 |
| MRPL48 | -8207 |
| MRPL10 | -8177 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| TUFM | -9885 |
| MRPS11 | -9876 |
| MRPL17 | -9794 |
| MRPL4 | -9305 |
| MRPS18A | -9260 |
| MRPL51 | -9233 |
| MRPL53 | -9185 |
| MRPL37 | -9150 |
| MRPL13 | -9145 |
| MRPL32 | -8923 |
| MRPL2 | -8848 |
| MRPL46 | -8605 |
| MTFMT | -8556 |
| MRPS31 | -8507 |
| MRPL15 | -8425 |
| MRPL58 | -8421 |
| MRPS15 | -8403 |
| MRPS7 | -8395 |
| MRPL48 | -8207 |
| MRPL10 | -8177 |
| MRPS16 | -8029 |
| MRPL21 | -8010 |
| MRPL18 | -7989 |
| MRPL12 | -7921 |
| MRPL33 | -7871 |
| MTIF3 | -7770 |
| MRPL55 | -7722 |
| MRPL40 | -7710 |
| MRPL36 | -7524 |
| CHCHD1 | -7089 |
| MRPS23 | -6927 |
| MRPS33 | -6892 |
| MRPL39 | -6867 |
| MRPL54 | -6824 |
| MRPS17 | -6822 |
| MRPL41 | -6677 |
| TSFM | -6642 |
| MRPL14 | -6344 |
| MRPS30 | -5841 |
| MRPL27 | -5785 |
| MRPL30 | -5623 |
| MRPL47 | -5312 |
| MRPL3 | -5232 |
| MRPL52 | -5167 |
| ERAL1 | -5119 |
| AURKAIP1 | -5110 |
| MRPL9 | -5079 |
| MRPL34 | -4978 |
| MRPL49 | -4933 |
| MRPL24 | -4927 |
| MRPS24 | -4891 |
| MRPL50 | -4848 |
| MRPS12 | -4463 |
| MTIF2 | -4460 |
| GADD45GIP1 | -4001 |
| MRPS18B | -3165 |
| MRPL11 | -2897 |
| MRPS10 | -2313 |
| MRPS26 | -2275 |
| MRPL42 | -2238 |
| OXA1L | -2063 |
| GFM2 | -2013 |
| MRPS18C | -1832 |
| MRPL57 | -1219 |
| DAP3 | -1107 |
| MRPS21 | -1038 |
| MRPL20 | -903 |
| MRPL1 | -656 |
| MRPL35 | -145 |
| MRPL43 | 289 |
| MRPS5 | 771 |
| MRPL44 | 1296 |
| MRRF | 1981 |
| MRPS14 | 2184 |
| MRPS9 | 2503 |
| PTCD3 | 2740 |
| MRPL19 | 2954 |
| MRPL28 | 3045 |
| MRPS25 | 3101 |
| GFM1 | 3305 |
| MRPS35 | 3398 |
| MRPS34 | 3844 |
| MRPS27 | 4220 |
| MRPS2 | 4740 |
| MRPS28 | 5122 |
| MRPL16 | 5883 |
| MRPS22 | 5940 |
| MTRF1L | 6007 |
| MRPL22 | 7020 |
| MRPL38 | 8501 |
| MRPS6 | 8821 |
| MRPL23 | 10125 |
| MRPL45 | 11070 |
REACTOME_SARS_COV_1_MODULATES_HOST_TRANSLATION_MACHINERY
| 1591 | |
|---|---|
| set | REACTOME_SARS_COV_1_MODULATES_HOST_TRANSLATION_MACHINERY |
| setSize | 33 |
| pANOVA | 1.01e-07 |
| s.dist | -0.535 |
| p.adjustANOVA | 5.53e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPS6 | -9806 |
| RPS28 | -9678 |
| HNRNPA1 | -9569 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPS14 | -9401 |
| RPS10 | -9091 |
| RPS3A | -8975 |
| RPS3 | -8834 |
| RPSA | -8467 |
| RPS9 | -7845 |
| RPS19 | -7779 |
| RPS2 | -7738 |
| RPS8 | -7382 |
| RPS7 | -7130 |
| RPS15A | -7015 |
| RPS29 | -6975 |
| RPS13 | -6339 |
| RPS27L | -6200 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPS6 | -9806 |
| RPS28 | -9678 |
| HNRNPA1 | -9569 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPS14 | -9401 |
| RPS10 | -9091 |
| RPS3A | -8975 |
| RPS3 | -8834 |
| RPSA | -8467 |
| RPS9 | -7845 |
| RPS19 | -7779 |
| RPS2 | -7738 |
| RPS8 | -7382 |
| RPS7 | -7130 |
| RPS15A | -7015 |
| RPS29 | -6975 |
| RPS13 | -6339 |
| RPS27L | -6200 |
| EEF1A1 | -5856 |
| RPS11 | -5850 |
| RPS27 | -5318 |
| FAU | -5092 |
| RPS5 | -3417 |
| RPS12 | -2751 |
| RPS27A | -2707 |
| RPS21 | -2596 |
| RPS24 | -456 |
| RPS15 | 320 |
| RPS20 | 828 |
| RPS25 | 4809 |
| RPS23 | 6291 |
REACTOME_POSITIVE_EPIGENETIC_REGULATION_OF_RRNA_EXPRESSION
| 851 | |
|---|---|
| set | REACTOME_POSITIVE_EPIGENETIC_REGULATION_OF_RRNA_EXPRESSION |
| setSize | 98 |
| pANOVA | 1.1e-07 |
| s.dist | -0.31 |
| p.adjustANOVA | 5.82e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| POLR1H | -8215.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| DDX21 | -7212.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| GSK3B | -6981.0 |
| GATAD2B | -6523.0 |
| H2BC11 | -6443.0 |
| POLR1C | -6163.0 |
| H3C8 | -5893.0 |
| POLR1G | -5845.0 |
| H2AJ | -5812.0 |
| KAT2B | -5664.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| SMARCA5 | -4808.0 |
| H2BC8 | -4740.0 |
| POLR1F | -4737.0 |
| BAZ1B | -4618.0 |
| H2AX | -4613.0 |
| POLR1B | -4549.0 |
| EP300 | -4543.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| POLR2H | -2710.0 |
| RBBP4 | -2675.0 |
| CBX3 | -2592.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TTF1 | -2113.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| SF3B1 | -1499.0 |
| POLR1D | -1301.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| KAT2A | -148.0 |
| HDAC1 | 78.0 |
| MTA3 | 331.0 |
| MYO1C | 544.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| POLR1A | 2501.0 |
| HDAC2 | 2992.0 |
| MTA2 | 3356.0 |
| ERCC6 | 3768.0 |
| H2AC6 | 3867.0 |
| DEK | 3890.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| GATAD2A | 5020.0 |
| CHD4 | 5360.0 |
| H3C12 | 6531.0 |
| MYBBP1A | 6607.0 |
| H3C2 | 7476.0 |
| EHMT2 | 7491.0 |
| MBD3 | 7891.0 |
| TAF1C | 8532.0 |
| CHD3 | 8734.0 |
| H4C13 | 8916.0 |
| MTA1 | 9526.0 |
REACTOME_DNA_REPLICATION
| 1113 | |
|---|---|
| set | REACTOME_DNA_REPLICATION |
| setSize | 178 |
| pANOVA | 1.31e-07 |
| s.dist | -0.229 |
| p.adjustANOVA | 6.73e-06 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| POLE3 | -10268.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| MCM5 | -9967.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| UBE2S | -9874.0 |
| H4C11 | -9725.0 |
| POLE4 | -9697.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| PSMD13 | -9525.0 |
| PSMB8 | -9275.0 |
| H3C3 | -9117.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| POLE3 | -10268.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| MCM5 | -9967.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| UBE2S | -9874.0 |
| H4C11 | -9725.0 |
| POLE4 | -9697.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| PSMD13 | -9525.0 |
| PSMB8 | -9275.0 |
| H3C3 | -9117.0 |
| PSMA7 | -9081.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| POLD4 | -8861.0 |
| PSMA3 | -8660.0 |
| RFC4 | -8512.0 |
| PSMC5 | -8460.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| PSMD4 | -8253.0 |
| H2BC10 | -8128.0 |
| UBC | -8040.0 |
| FEN1 | -7941.0 |
| PSMB2 | -7696.0 |
| H2AC8 | -7580.0 |
| KPNB1 | -7455.0 |
| H3C10 | -7442.0 |
| PSME2 | -7342.0 |
| H4C6 | -7171.0 |
| CDC16 | -7166.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| DBF4 | -7142.0 |
| PSMD7 | -7104.0 |
| SKP1 | -7085.0 |
| CDC26 | -6803.0 |
| PSMB9 | -6737.0 |
| PSMC4 | -6700.0 |
| H2BC11 | -6443.0 |
| PSMA5 | -6442.0 |
| MCM8 | -6337.0 |
| ANAPC1 | -6309.0 |
| PSMD11 | -6284.0 |
| RPA2 | -6177.0 |
| POLA2 | -5905.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| GINS2 | -5806.0 |
| H4C12 | -5632.0 |
| PSME3 | -5547.0 |
| KPNA1 | -5353.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| UBB | -5059.0 |
| UBA52 | -4934.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| PSMB10 | -4811.0 |
| H2BC8 | -4740.0 |
| MCM6 | -4722.0 |
| PSMA6 | -4676.0 |
| H2AX | -4613.0 |
| PRIM2 | -4490.0 |
| PSMD9 | -4450.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| ORC1 | -4115.0 |
| ORC2 | -3938.0 |
| H2BC12 | -3934.0 |
| ANAPC5 | -3877.0 |
| PSMD5 | -3781.0 |
| UBE2E1 | -3620.0 |
| H2BC6 | -3615.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| MCM4 | -3404.0 |
| ANAPC10 | -3390.0 |
| PSMD6 | -3380.0 |
| PSMB4 | -3285.0 |
| RBX1 | -3208.0 |
| H2AC14 | -3153.0 |
| MCM10 | -3137.0 |
| H2BC1 | -3120.0 |
| PSMC3 | -3081.0 |
| RPS27A | -2707.0 |
| H4C16 | -2435.0 |
| CCNE1 | -2408.0 |
| PCNA | -2279.0 |
| ANAPC16 | -2166.0 |
| CDC6 | -2152.0 |
| H3C11 | -2128.0 |
| CCNA2 | -1962.0 |
| H2BC21 | -1800.0 |
| PSMB6 | -1764.0 |
| ORC3 | -1754.0 |
| ANAPC11 | -1511.0 |
| CDK2 | -1214.0 |
| RFC3 | -1186.0 |
| PRIM1 | -1066.0 |
| PSMC6 | -1062.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| CCNA1 | -706.0 |
| H2AC20 | -444.0 |
| RFC2 | -242.0 |
| SKP2 | -213.0 |
| H4C1 | -204.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| PSMA1 | 296.0 |
| MCM3 | 342.0 |
| GINS1 | 367.0 |
| POLD3 | 566.0 |
| H2BC4 | 586.0 |
| ORC5 | 821.0 |
| GINS4 | 911.0 |
| CDC27 | 1034.0 |
| CDC7 | 1087.0 |
| H2BC26 | 1116.0 |
| ANAPC15 | 1129.0 |
| PSMB7 | 1455.0 |
| RFC5 | 1528.0 |
| PSME4 | 1583.0 |
| CDT1 | 1607.0 |
| PSMB5 | 1628.0 |
| GMNN | 1922.0 |
| DNA2 | 2097.0 |
| RPA3 | 2233.0 |
| POLD1 | 2458.0 |
| ORC4 | 2489.0 |
| CCNE2 | 2538.0 |
| CUL1 | 3151.0 |
| MCM7 | 3207.0 |
| RFC1 | 3235.0 |
| ANAPC7 | 3281.0 |
| CDC23 | 3434.0 |
| RPA1 | 3825.0 |
| POLD2 | 3854.0 |
| H2AC6 | 3867.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| KPNA6 | 4371.0 |
| H2AZ2 | 4572.0 |
| PSMD1 | 5004.0 |
| PSMF1 | 5263.0 |
| LIG1 | 5490.0 |
| UBE2C | 5682.0 |
| UBE2D1 | 6348.0 |
| POLE2 | 6363.0 |
| ORC6 | 6395.0 |
| H3C12 | 6531.0 |
| PSMD12 | 6808.0 |
| GINS3 | 6883.0 |
| CDC45 | 7024.0 |
| PSME1 | 7056.0 |
| H3C2 | 7476.0 |
| ANAPC4 | 7971.0 |
| PSMA8 | 8011.0 |
| FZR1 | 8219.0 |
| PSMD14 | 8243.0 |
| POLE | 8419.0 |
| H4C13 | 8916.0 |
| ANAPC2 | 9292.0 |
| PSMD8 | 9422.0 |
| MCM2 | 9504.0 |
| PSMD2 | 9891.0 |
| PSMB11 | 10612.0 |
REACTOME_DEPOSITION_OF_NEW_CENPA_CONTAINING_NUCLEOSOMES_AT_THE_CENTROMERE
| 1025 | |
|---|---|
| set | REACTOME_DEPOSITION_OF_NEW_CENPA_CONTAINING_NUCLEOSOMES_AT_THE_CENTROMERE |
| setSize | 66 |
| pANOVA | 2.7e-07 |
| s.dist | -0.366 |
| p.adjustANOVA | 1.34e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| CENPM | -10175.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| CENPL | -7786.0 |
| H2AC8 | -7580.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| CENPM | -10175.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| CENPL | -7786.0 |
| H2AC8 | -7580.0 |
| CENPC | -7482.0 |
| NPM1 | -7384.0 |
| KNL1 | -7176.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| OIP5 | -6295.0 |
| MIS18BP1 | -6271.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| SMARCA5 | -4808.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| ITGB3BP | -4411.0 |
| H4C9 | -4394.0 |
| CENPH | -4309.0 |
| H2BC12 | -3934.0 |
| CENPT | -3866.0 |
| CENPW | -3713.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| RBBP4 | -2675.0 |
| H4C16 | -2435.0 |
| H2BC21 | -1800.0 |
| RUVBL1 | -1335.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| CENPK | 22.0 |
| H2BC4 | 586.0 |
| CENPQ | 740.0 |
| H2BC26 | 1116.0 |
| RSF1 | 1281.0 |
| CENPA | 3182.0 |
| CENPN | 3387.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| MIS18A | 4672.0 |
| CENPO | 5812.0 |
| CENPP | 6008.0 |
| CENPU | 7052.0 |
| CENPS | 7311.0 |
| H4C13 | 8916.0 |
| HJURP | 9611.0 |
REACTOME_ACTIVATION_OF_ANTERIOR_HOX_GENES_IN_HINDBRAIN_DEVELOPMENT_DURING_EARLY_EMBRYOGENESIS
| 901 | |
|---|---|
| set | REACTOME_ACTIVATION_OF_ANTERIOR_HOX_GENES_IN_HINDBRAIN_DEVELOPMENT_DURING_EARLY_EMBRYOGENESIS |
| setSize | 113 |
| pANOVA | 3e-07 |
| s.dist | -0.279 |
| p.adjustANOVA | 1.45e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| PAGR1 | -9886.0 |
| POLR2I | -9848.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| HOXA1 | -9536.0 |
| CTCF | -9414.0 |
| NCOA6 | -9190.0 |
| H3C3 | -9117.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| PAGR1 | -9886.0 |
| POLR2I | -9848.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| HOXA1 | -9536.0 |
| CTCF | -9414.0 |
| NCOA6 | -9190.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ZNF335 | -8906.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| HOXB4 | -8325.0 |
| H2AZ1 | -8280.0 |
| MAFB | -8249.0 |
| HOXA2 | -8170.0 |
| H2BC10 | -8128.0 |
| RARG | -7735.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| HOXC4 | -6828.0 |
| PAX6 | -6801.0 |
| H2BC11 | -6443.0 |
| AJUBA | -6355.0 |
| HOXA3 | -6044.0 |
| JUN | -5900.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| CNOT9 | -5320.0 |
| EGR2 | -5176.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| EED | -4751.0 |
| H2BC8 | -4740.0 |
| POLR2C | -4652.0 |
| H2AX | -4613.0 |
| EP300 | -4543.0 |
| H4C9 | -4394.0 |
| RBBP5 | -4288.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| SUZ12 | -3901.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| PAXIP1 | -3505.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| POLR2H | -2710.0 |
| RBBP4 | -2675.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| HOXD3 | -1681.0 |
| POLR2G | -1573.0 |
| HOXD4 | -1350.0 |
| PCGF2 | -1176.0 |
| H3-3A | -1031.0 |
| HOXB2 | -1010.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| NCOR1 | -527.0 |
| NCOA3 | -476.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| ASH2L | 91.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| RARB | 1389.0 |
| PIAS2 | 1734.0 |
| EZH2 | 2131.0 |
| YY1 | 2309.0 |
| HOXD1 | 2383.0 |
| CNOT6 | 2866.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| CREBBP | 4616.0 |
| PBX1 | 5014.0 |
| POLR2D | 5189.0 |
| POLR2B | 5721.0 |
| MEIS1 | 6421.0 |
| H3C12 | 6531.0 |
| HDAC3 | 6994.0 |
| POLR2A | 7019.0 |
| RARA | 7105.0 |
| PKNOX1 | 7326.0 |
| H3C2 | 7476.0 |
| HOXB1 | 7682.0 |
| HOXB3 | 8116.0 |
| WDR5 | 8384.0 |
| KMT2C | 8551.0 |
| H4C13 | 8916.0 |
| HOXA4 | 9819.0 |
| RXRA | 10290.0 |
| KMT2D | 10859.0 |
REACTOME_TRANSCRIPTIONAL_REGULATION_BY_SMALL_RNAS
| 887 | |
|---|---|
| set | REACTOME_TRANSCRIPTIONAL_REGULATION_BY_SMALL_RNAS |
| setSize | 100 |
| pANOVA | 3.74e-07 |
| s.dist | -0.294 |
| p.adjustANOVA | 1.75e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| SEH1L | -10060.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| POLR2I | -9848.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| NUP42 | -9274.0 |
| NUP43 | -9181.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| SEH1L | -10060.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| POLR2I | -9848.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| NUP42 | -9274.0 |
| NUP43 | -9181.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| NUP107 | -8608.0 |
| AGO1 | -8521.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| NUP37 | -7953.0 |
| NUP160 | -7693.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| NUP50 | -6564.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| NUP153 | -5033.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| RAN | -4756.0 |
| H2BC8 | -4740.0 |
| POLR2C | -4652.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| IPO8 | -3763.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| NUP155 | -3436.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| TPR | -2890.0 |
| POLR2H | -2710.0 |
| NUP85 | -2443.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| NUP98 | -1888.0 |
| H2BC21 | -1800.0 |
| POLR2G | -1573.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| NUP58 | -237.0 |
| H4C1 | -204.0 |
| SEC13 | 66.0 |
| NUP35 | 446.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| NUP88 | 1334.0 |
| NDC1 | 1422.0 |
| NUP214 | 1526.0 |
| POM121C | 1782.0 |
| NUP188 | 2308.0 |
| NUP54 | 2991.0 |
| NUP133 | 3395.0 |
| NUP62 | 3527.0 |
| H2AC6 | 3867.0 |
| RAE1 | 4292.0 |
| H2AZ2 | 4572.0 |
| NUP93 | 4585.0 |
| AAAS | 4604.0 |
| POLR2D | 5189.0 |
| NUP205 | 5228.0 |
| POLR2B | 5721.0 |
| RANBP2 | 5895.0 |
| H3C12 | 6531.0 |
| POLR2A | 7019.0 |
| POM121 | 7060.0 |
| AGO2 | 7427.0 |
| H3C2 | 7476.0 |
| TNRC6A | 8122.0 |
| H4C13 | 8916.0 |
| NUP210 | 9431.0 |
REACTOME_DISEASES_OF_PROGRAMMED_CELL_DEATH
| 1502 | |
|---|---|
| set | REACTOME_DISEASES_OF_PROGRAMMED_CELL_DEATH |
| setSize | 96 |
| pANOVA | 4.09e-07 |
| s.dist | -0.299 |
| p.adjustANOVA | 1.87e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| FASLG | -10201.0 |
| PRDX2 | -10200.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| SOD2 | -9128.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| FADD | -8658.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| FASLG | -10201.0 |
| PRDX2 | -10200.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| SOD2 | -9128.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| FADD | -8658.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| LMNA | -7958.0 |
| CDK5 | -7894.0 |
| YWHAE | -7836.0 |
| H2AC8 | -7580.0 |
| TRADD | -7532.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| POLA2 | -5905.0 |
| JUN | -5900.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| CAPN1 | -5634.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| CDC25C | -5040.0 |
| CDKN2A | -4928.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| EED | -4751.0 |
| H2BC8 | -4740.0 |
| LMNB1 | -4730.0 |
| H2AX | -4613.0 |
| PRIM2 | -4490.0 |
| H4C9 | -4394.0 |
| CASP8 | -4353.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| SUZ12 | -3901.0 |
| H2BC6 | -3615.0 |
| MLKL | -3588.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| RBBP4 | -2675.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| TP53 | -1704.0 |
| PRIM1 | -1066.0 |
| H3-3A | -1031.0 |
| BCL2L11 | -1016.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| APP | 339.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| DNMT3B | 1176.0 |
| EZH2 | 2131.0 |
| CDC25B | 2429.0 |
| CDC25A | 2835.0 |
| FOXO3 | 3234.0 |
| CAST | 3328.0 |
| CDK5R1 | 3376.0 |
| C1QBP | 3637.0 |
| CAPNS2 | 3668.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| DNMT1 | 5467.0 |
| TRAF2 | 5475.0 |
| DNMT3A | 6119.0 |
| RIPK3 | 6287.0 |
| H3C12 | 6531.0 |
| PRDX1 | 7142.0 |
| CAPN2 | 7392.0 |
| H3C2 | 7476.0 |
| RIPK1 | 7713.0 |
| GOLGA2 | 7879.0 |
| GSDME | 8115.0 |
| CAPNS1 | 8177.0 |
| H4C13 | 8916.0 |
REACTOME_INHIBITION_OF_DNA_RECOMBINATION_AT_TELOMERE
| 1530 | |
|---|---|
| set | REACTOME_INHIBITION_OF_DNA_RECOMBINATION_AT_TELOMERE |
| setSize | 63 |
| pANOVA | 4.98e-07 |
| s.dist | -0.366 |
| p.adjustANOVA | 2.21e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| POLR2I | -9848.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| TERF2IP | -8102.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| POLR2J | -10179.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| POLR2I | -9848.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| TERF2IP | -8102.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H4C6 | -7171.0 |
| TERF1 | -6818.0 |
| H2BC11 | -6443.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| TINF2 | -4952.0 |
| H4C4 | -4850.0 |
| H2BC8 | -4740.0 |
| POLR2C | -4652.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H2BC12 | -3934.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| POLR2H | -2710.0 |
| H4C16 | -2435.0 |
| H2BC21 | -1800.0 |
| POLR2G | -1573.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| DAXX | 3128.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| TERF2 | 5034.0 |
| POLR2D | 5189.0 |
| ACD | 5204.5 |
| POLR2B | 5721.0 |
| POT1 | 6490.0 |
| POLR2A | 7019.0 |
| H3-4 | 7838.0 |
| H4C13 | 8916.0 |
REACTOME_CONDENSATION_OF_PROPHASE_CHROMOSOMES
| 480 | |
|---|---|
| set | REACTOME_CONDENSATION_OF_PROPHASE_CHROMOSOMES |
| setSize | 66 |
| pANOVA | 6.18e-07 |
| s.dist | -0.355 |
| p.adjustANOVA | 2.67e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| SMC4 | -10205.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| SMC4 | -10205.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| CDK1 | -8136.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| SMC2 | -7515.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| SET | -5132.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| NCAPH2 | -453.0 |
| H2AC20 | -444.0 |
| NCAPG2 | -304.0 |
| H4C1 | -204.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| H2AC6 | 3867.0 |
| CCNB1 | 4504.0 |
| H2AZ2 | 4572.0 |
| PLK1 | 6277.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| NCAPD3 | 7748.0 |
| H3-4 | 7838.0 |
| RB1 | 7933.0 |
| KMT5A | 8179.0 |
| MCPH1 | 8586.0 |
| H4C13 | 8916.0 |
REACTOME_TRANSCRIPTIONAL_REGULATION_OF_GRANULOPOIESIS
| 1476 | |
|---|---|
| set | REACTOME_TRANSCRIPTIONAL_REGULATION_OF_GRANULOPOIESIS |
| setSize | 83 |
| pANOVA | 7.01e-07 |
| s.dist | -0.315 |
| p.adjustANOVA | 2.91e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| MYC | -8846.0 |
| CEBPB | -8501.0 |
| H4C5 | -8410.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| MYC | -8846.0 |
| CEBPB | -8501.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| LEF1 | -8061.0 |
| GFI1 | -7657.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| H2BC11 | -6443.0 |
| E2F1 | -6323.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| GATA2 | -5361.0 |
| CBFB | -5323.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| EP300 | -4543.0 |
| TAL1 | -4419.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| TFDP2 | -4086.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| KMT2A | -3359.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| RUNX1 | -1819.0 |
| H2BC21 | -1800.0 |
| MYB | -1291.0 |
| CDK2 | -1214.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| CDKN1A | -65.0 |
| IL6R | 18.0 |
| PML | 514.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| KLF5 | 2251.0 |
| SPI1 | 3035.0 |
| H2AC6 | 3867.0 |
| DEK | 3890.0 |
| STAT3 | 4311.0 |
| CEBPA | 4507.0 |
| H2AZ2 | 4572.0 |
| CSF3R | 5574.0 |
| FLI1 | 6000.0 |
| CREB1 | 6384.0 |
| H3C12 | 6531.0 |
| RARA | 7105.0 |
| H3C2 | 7476.0 |
| H4C13 | 8916.0 |
| TFDP1 | 9663.0 |
| CEBPE | 9714.0 |
| RXRA | 10290.0 |
REACTOME_RNA_POLYMERASE_I_TRANSCRIPTION
| 1163 | |
|---|---|
| set | REACTOME_RNA_POLYMERASE_I_TRANSCRIPTION |
| setSize | 102 |
| pANOVA | 7.09e-07 |
| s.dist | -0.284 |
| p.adjustANOVA | 2.91e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| CAVIN1 | -8970.0 |
| H4C5 | -8410.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| CAVIN1 | -8970.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| POLR1H | -8215.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| GATAD2B | -6523.0 |
| H2BC11 | -6443.0 |
| GTF2H3 | -6340.0 |
| POLR1C | -6163.0 |
| H3C8 | -5893.0 |
| POLR1G | -5845.0 |
| CDK7 | -5825.0 |
| H2AJ | -5812.0 |
| KAT2B | -5664.0 |
| H4C12 | -5632.0 |
| MNAT1 | -5299.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| CCNH | -4866.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| POLR1F | -4737.0 |
| H2AX | -4613.0 |
| POLR1B | -4549.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| MBD2 | -3520.0 |
| UBTF | -3295.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| GTF2H5 | -3090.0 |
| POLR2H | -2710.0 |
| RBBP4 | -2675.0 |
| CBX3 | -2592.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TTF1 | -2113.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| POLR1D | -1301.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| KAT2A | -148.0 |
| HDAC1 | 78.0 |
| MTA3 | 331.0 |
| H2BC4 | 586.0 |
| ERCC2 | 1041.0 |
| H2BC26 | 1116.0 |
| GTF2H1 | 2125.0 |
| POLR1A | 2501.0 |
| HDAC2 | 2992.0 |
| MTA2 | 3356.0 |
| ERCC6 | 3768.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| GATAD2A | 5020.0 |
| MAPK3 | 5125.0 |
| CHD4 | 5360.0 |
| GTF2H4 | 5742.0 |
| H3C12 | 6531.0 |
| H3C2 | 7476.0 |
| EHMT2 | 7491.0 |
| RRN3 | 7841.0 |
| MBD3 | 7891.0 |
| TAF1C | 8532.0 |
| ERCC3 | 8718.0 |
| CHD3 | 8734.0 |
| H4C13 | 8916.0 |
| MTA1 | 9526.0 |
REACTOME_G2_M_CHECKPOINTS
| 1116 | |
|---|---|
| set | REACTOME_G2_M_CHECKPOINTS |
| setSize | 162 |
| pANOVA | 8.94e-07 |
| s.dist | -0.224 |
| p.adjustANOVA | 3.58e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| SFN | -10645.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| MCM5 | -9967.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H4C11 | -9725.0 |
| CHEK2 | -9618.0 |
| H2BC5 | -9558.0 |
| PSMD13 | -9525.0 |
| RAD50 | -9451.0 |
| PSMB8 | -9275.0 |
| RHNO1 | -9236.0 |
| PSMA7 | -9081.0 |
| RAD17 | -9057.0 |
| BRCA1 | -9053.0 |
| H2BC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| SFN | -10645.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| MCM5 | -9967.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H4C11 | -9725.0 |
| CHEK2 | -9618.0 |
| H2BC5 | -9558.0 |
| PSMD13 | -9525.0 |
| RAD50 | -9451.0 |
| PSMB8 | -9275.0 |
| RHNO1 | -9236.0 |
| PSMA7 | -9081.0 |
| RAD17 | -9057.0 |
| BRCA1 | -9053.0 |
| H2BC7 | -8983.5 |
| PSMA3 | -8660.0 |
| RFC4 | -8512.0 |
| PSMC5 | -8460.0 |
| YWHAZ | -8450.0 |
| H4C5 | -8410.0 |
| PSMD4 | -8253.0 |
| CDK1 | -8136.0 |
| H2BC10 | -8128.0 |
| UBC | -8040.0 |
| YWHAE | -7836.0 |
| PSMB2 | -7696.0 |
| PIAS4 | -7486.0 |
| KAT5 | -7394.0 |
| PSME2 | -7342.0 |
| CLSPN | -7189.0 |
| H4C6 | -7171.0 |
| PSMB3 | -7156.0 |
| PSMA4 | -7153.0 |
| DBF4 | -7142.0 |
| PSMD7 | -7104.0 |
| PSMB9 | -6737.0 |
| PSMC4 | -6700.0 |
| H2BC11 | -6443.0 |
| PSMA5 | -6442.0 |
| MCM8 | -6337.0 |
| PSMD11 | -6284.0 |
| RPA2 | -6177.0 |
| BRIP1 | -6042.0 |
| UBE2N | -6001.0 |
| H4C12 | -5632.0 |
| PSME3 | -5547.0 |
| EXO1 | -5529.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| HUS1 | -5066.0 |
| UBB | -5059.0 |
| CDC25C | -5040.0 |
| UBA52 | -4934.0 |
| H4C4 | -4850.0 |
| PSMB10 | -4811.0 |
| H2BC8 | -4740.0 |
| MCM6 | -4722.0 |
| CCNB2 | -4702.0 |
| PSMA6 | -4676.0 |
| H2AX | -4613.0 |
| TP53BP1 | -4612.0 |
| RAD1 | -4600.0 |
| BABAM1 | -4582.0 |
| BARD1 | -4515.0 |
| PSMD9 | -4450.0 |
| RBBP8 | -4437.0 |
| H4C9 | -4394.0 |
| ORC1 | -4115.0 |
| ORC2 | -3938.0 |
| H2BC12 | -3934.0 |
| PSMD5 | -3781.0 |
| UBE2V2 | -3780.0 |
| H2BC6 | -3615.0 |
| PSMC2 | -3476.0 |
| PSMA2 | -3445.0 |
| MCM4 | -3404.0 |
| PSMD6 | -3380.0 |
| TOPBP1 | -3302.0 |
| PSMB4 | -3285.0 |
| MCM10 | -3137.0 |
| H2BC1 | -3120.0 |
| PSMC3 | -3081.0 |
| ATM | -2904.0 |
| RPS27A | -2707.0 |
| H4C16 | -2435.0 |
| CDC6 | -2152.0 |
| RNF8 | -2012.0 |
| NBN | -1875.0 |
| H2BC21 | -1800.0 |
| PSMB6 | -1764.0 |
| ORC3 | -1754.0 |
| TP53 | -1704.0 |
| CHEK1 | -1285.0 |
| RAD9A | -1236.0 |
| CDK2 | -1214.0 |
| RFC3 | -1186.0 |
| PSMC6 | -1062.0 |
| ABRAXAS1 | -514.0 |
| RFC2 | -242.0 |
| H4C1 | -204.0 |
| RAD9B | -147.0 |
| SEM1 | -38.0 |
| PSMB1 | -28.0 |
| MDC1 | 120.0 |
| PSMA1 | 296.0 |
| MCM3 | 342.0 |
| BLM | 541.0 |
| H2BC4 | 586.0 |
| ORC5 | 821.0 |
| CDC7 | 1087.0 |
| RMI1 | 1112.0 |
| H2BC26 | 1116.0 |
| YWHAH | 1231.0 |
| PSMB7 | 1455.0 |
| PKMYT1 | 1472.0 |
| RFC5 | 1528.0 |
| PSME4 | 1583.0 |
| PSMB5 | 1628.0 |
| GTSE1 | 1641.0 |
| YWHAB | 1794.0 |
| DNA2 | 2097.0 |
| RPA3 | 2233.0 |
| ORC4 | 2489.0 |
| YWHAQ | 2738.0 |
| CDC25A | 2835.0 |
| YWHAG | 2854.0 |
| RMI2 | 2856.0 |
| MCM7 | 3207.0 |
| ATR | 3233.0 |
| RPA1 | 3825.0 |
| WRN | 3949.0 |
| PSMD3 | 4235.0 |
| PSMC1 | 4252.0 |
| CCNB1 | 4504.0 |
| BABAM2 | 4513.0 |
| UIMC1 | 4895.0 |
| PSMD1 | 5004.0 |
| PSMF1 | 5263.0 |
| WEE1 | 5813.0 |
| ATRIP | 6078.0 |
| TOP3A | 6257.0 |
| ORC6 | 6395.0 |
| MRE11 | 6746.0 |
| PSMD12 | 6808.0 |
| CDC45 | 7024.0 |
| PSME1 | 7056.0 |
| RNF168 | 7279.0 |
| NSD2 | 7557.0 |
| H3-4 | 7838.0 |
| PSMA8 | 8011.0 |
| PSMD14 | 8243.0 |
| H4C13 | 8916.0 |
| HERC2 | 9295.0 |
| PSMD8 | 9422.0 |
| MCM2 | 9504.0 |
| PSMD2 | 9891.0 |
| PSMB11 | 10612.0 |
REACTOME_SARS_COV_2_MODULATES_HOST_TRANSLATION_MACHINERY
| 1601 | |
|---|---|
| set | REACTOME_SARS_COV_2_MODULATES_HOST_TRANSLATION_MACHINERY |
| setSize | 46 |
| pANOVA | 9.3e-07 |
| s.dist | -0.418 |
| p.adjustANOVA | 3.64e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| RPS6 | -9806 |
| RPS28 | -9678 |
| RPS18 | -9512 |
| RPS26 | -9490 |
| RPS16 | -9467 |
| RPS14 | -9401 |
| SNRPD2 | -9397 |
| GEMIN5 | -9279 |
| RPS10 | -9091 |
| RPS3A | -8975 |
| RPS3 | -8834 |
| GEMIN2 | -8513 |
| DDX20 | -8485 |
| RPSA | -8467 |
| RPS9 | -7845 |
| RPS19 | -7779 |
| RPS2 | -7738 |
| RPS8 | -7382 |
| RPS7 | -7130 |
| RPS15A | -7015 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| RPS6 | -9806.0 |
| RPS28 | -9678.0 |
| RPS18 | -9512.0 |
| RPS26 | -9490.0 |
| RPS16 | -9467.0 |
| RPS14 | -9401.0 |
| SNRPD2 | -9397.0 |
| GEMIN5 | -9279.0 |
| RPS10 | -9091.0 |
| RPS3A | -8975.0 |
| RPS3 | -8834.0 |
| GEMIN2 | -8513.0 |
| DDX20 | -8485.0 |
| RPSA | -8467.0 |
| RPS9 | -7845.0 |
| RPS19 | -7779.0 |
| RPS2 | -7738.0 |
| RPS8 | -7382.0 |
| RPS7 | -7130.0 |
| RPS15A | -7015.0 |
| RPS29 | -6975.0 |
| SNRPG | -6599.0 |
| SNRPD1 | -6546.0 |
| RPS13 | -6339.0 |
| RPS27L | -6200.0 |
| SNRPD3 | -6155.0 |
| RPS11 | -5850.0 |
| RPS27 | -5318.0 |
| GEMIN6 | -5280.0 |
| FAU | -5092.0 |
| RPS5 | -3417.0 |
| RPS12 | -2751.0 |
| RPS27A | -2707.0 |
| RPS21 | -2596.0 |
| SNRPF | -1314.0 |
| RPS24 | -456.0 |
| RPS15 | 320.0 |
| RPS20 | 828.0 |
| GEMIN7 | 2106.0 |
| SMN1 | 4401.5 |
| SMN2 | 4401.5 |
| RPS25 | 4809.0 |
| SNRPB | 5980.0 |
| SNRPE | 6152.0 |
| RPS23 | 6291.0 |
| GEMIN4 | 8340.0 |
REACTOME_REPRODUCTION
| 114 | |
|---|---|
| set | REACTOME_REPRODUCTION |
| setSize | 136 |
| pANOVA | 1.12e-06 |
| s.dist | -0.242 |
| p.adjustANOVA | 4.23e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| IZUMO3 | -10323.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| MSH4 | -9933.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| RAD21 | -9607.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| RAD50 | -9451.0 |
| IZUMO1 | -9180.0 |
| H3C3 | -9117.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| IZUMO3 | -10323.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| MSH4 | -9933.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| CDK4 | -9831.0 |
| H4C11 | -9725.0 |
| RAD21 | -9607.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| RAD50 | -9451.0 |
| IZUMO1 | -9180.0 |
| H3C3 | -9117.0 |
| BRCA1 | -9053.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| SPO11 | -8732.0 |
| BRCA2 | -8726.0 |
| CATSPERG | -8515.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| TERF2IP | -8102.0 |
| LMNA | -7958.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| ZP2 | -7341.0 |
| SPAM1 | -7236.0 |
| RAD51C | -7228.0 |
| H4C6 | -7171.0 |
| TERF1 | -6818.0 |
| IZUMO4 | -6771.0 |
| FKBP6 | -6556.0 |
| H2BC11 | -6443.0 |
| STAG3 | -6299.0 |
| RPA2 | -6177.0 |
| H3C8 | -5893.0 |
| HVCN1 | -5892.0 |
| KCNU1 | -5877.0 |
| H2AJ | -5812.0 |
| CATSPER2 | -5722.0 |
| H4C12 | -5632.0 |
| ADAM2 | -5415.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| TINF2 | -4952.0 |
| H4C4 | -4850.0 |
| ADAM20 | -4847.0 |
| H3C1 | -4828.0 |
| SMC3 | -4817.0 |
| OVGP1 | -4744.0 |
| H2BC8 | -4740.0 |
| LMNB1 | -4730.0 |
| H2AX | -4613.0 |
| RBBP8 | -4437.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| CATSPER1 | -4040.0 |
| B4GALT1 | -3976.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| RAD51 | -3603.0 |
| ADAM30 | -3307.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| REC8 | -2916.0 |
| ATM | -2904.0 |
| MLH1 | -2713.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| NBN | -1875.0 |
| H2BC21 | -1800.0 |
| IZUMO2 | -1385.0 |
| SYCE1 | -1328.0 |
| CDK2 | -1214.0 |
| ZP1 | -1146.0 |
| H3-3A | -1031.0 |
| PSMC3IP | -883.0 |
| H3-3B | -813.0 |
| HSPA2 | -580.0 |
| H2AC20 | -444.0 |
| MND1 | -236.0 |
| H4C1 | -204.0 |
| MSH5 | -9.0 |
| BLM | 541.0 |
| DIDO1 | 572.0 |
| H2BC4 | 586.0 |
| ZP3 | 1103.0 |
| H2BC26 | 1116.0 |
| STAG1 | 1118.0 |
| TEX15 | 1381.0 |
| CATSPERD | 1499.0 |
| CATSPERB | 1687.0 |
| RPA3 | 2233.0 |
| DMC1 | 2773.0 |
| ATR | 3233.0 |
| SYCE3 | 3365.0 |
| UBE2I | 3611.0 |
| CD9 | 3663.0 |
| ACR | 3824.0 |
| RPA1 | 3825.0 |
| H2AC6 | 3867.0 |
| SYNE1 | 4022.0 |
| SUN2 | 4284.0 |
| SYCP1 | 4472.0 |
| ZP4 | 4540.0 |
| H2AZ2 | 4572.0 |
| PRDM9 | 4850.0 |
| TERF2 | 5034.0 |
| ADAM21 | 5174.0 |
| ACD | 5204.5 |
| TEX12 | 5566.0 |
| CATSPER4 | 6180.0 |
| TOP3A | 6257.0 |
| POT1 | 6490.0 |
| H3C12 | 6531.0 |
| MLH3 | 6715.0 |
| MRE11 | 6746.0 |
| H3C2 | 7476.0 |
| SMC1B | 7529.0 |
| SYCE2 | 7630.0 |
| SYNE2 | 7719.0 |
| H3-4 | 7838.0 |
| SYCP2 | 8299.0 |
| SYCP3 | 8631.0 |
| SUN1 | 8762.0 |
| H4C13 | 8916.0 |
| CATSPER3 | 9622.0 |
REACTOME_RECOGNITION_AND_ASSOCIATION_OF_DNA_GLYCOSYLASE_WITH_SITE_CONTAINING_AN_AFFECTED_PURINE
| 9 | |
|---|---|
| set | REACTOME_RECOGNITION_AND_ASSOCIATION_OF_DNA_GLYCOSYLASE_WITH_SITE_CONTAINING_AN_AFFECTED_PURINE |
| setSize | 52 |
| pANOVA | 1.13e-06 |
| s.dist | -0.39 |
| p.adjustANOVA | 4.23e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| TERF2IP | -8102.0 |
| H2AC8 | -7580.0 |
| H4C6 | -7171.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| H4C5 | -8410.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| TERF2IP | -8102.0 |
| H2AC8 | -7580.0 |
| H4C6 | -7171.0 |
| TERF1 | -6818.0 |
| H2BC11 | -6443.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| TINF2 | -4952.0 |
| H4C4 | -4850.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| H4C9 | -4394.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| OGG1 | -2484.0 |
| H4C16 | -2435.0 |
| H2BC21 | -1800.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| MPG | -194.0 |
| H2BC4 | 586.0 |
| H2BC26 | 1116.0 |
| MUTYH | 3533.0 |
| H2AC6 | 3867.0 |
| H2AZ2 | 4572.0 |
| TERF2 | 5034.0 |
| ACD | 5204.5 |
| NEIL3 | 5789.0 |
| POT1 | 6490.0 |
| H3-4 | 7838.0 |
| H4C13 | 8916.0 |
REACTOME_HDACS_DEACETYLATE_HISTONES
| 548 | |
|---|---|
| set | REACTOME_HDACS_DEACETYLATE_HISTONES |
| setSize | 85 |
| pANOVA | 1.24e-06 |
| s.dist | -0.304 |
| p.adjustANOVA | 4.53e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| H2AC11 | -9981.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| SAP30 | -9654.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| SAP18 | -9497.0 |
| ARID4A | -9299.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| H2AC11 | -9981.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| SAP30 | -9654.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| SAP18 | -9497.0 |
| ARID4A | -9299.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| HMG20B | -8919.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| REST | -8152.0 |
| H2BC10 | -8128.0 |
| H2AC13 | -8049.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| ARID4B | -6686.0 |
| GATAD2B | -6523.0 |
| H2BC11 | -6443.0 |
| H2AC15 | -6141.0 |
| H3C8 | -5893.0 |
| H4C12 | -5632.0 |
| H2AC21 | -5508.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| GPS2 | -4154.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| RBBP4 | -2675.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2AC1 | -2117.0 |
| H2BC21 | -1800.0 |
| TBL1XR1 | -1412.0 |
| NCOR1 | -527.0 |
| H2AC20 | -444.0 |
| H4C1 | -204.0 |
| HDAC1 | 78.0 |
| MTA3 | 331.0 |
| H2BC4 | 586.0 |
| RCOR1 | 593.0 |
| H2AC12 | 616.0 |
| H2BC26 | 1116.0 |
| H2AC16 | 1482.0 |
| PHF21A | 2035.0 |
| KDM1A | 2071.0 |
| H2AC25 | 2805.0 |
| HDAC2 | 2992.0 |
| MTA2 | 3356.0 |
| H2AC6 | 3867.0 |
| BRMS1 | 4051.0 |
| HDAC10 | 4527.0 |
| GATAD2A | 5020.0 |
| CHD4 | 5360.0 |
| SAP30L | 5794.0 |
| SUDS3 | 6117.0 |
| H3C12 | 6531.0 |
| HDAC3 | 6994.0 |
| H3C2 | 7476.0 |
| MBD3 | 7891.0 |
| CHD3 | 8734.0 |
| H4C13 | 8916.0 |
| NCOR2 | 9123.0 |
| MTA1 | 9526.0 |
REACTOME_EPIGENETIC_REGULATION_OF_GENE_EXPRESSION
| 437 | |
|---|---|
| set | REACTOME_EPIGENETIC_REGULATION_OF_GENE_EXPRESSION |
| setSize | 138 |
| pANOVA | 1.27e-06 |
| s.dist | -0.239 |
| p.adjustANOVA | 4.55e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| SAP30 | -9654.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| SAP18 | -9497.0 |
| H3C3 | -9117.0 |
| SIN3A | -9018.0 |
| H2AC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| POLR1E | -10495.0 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| SAP30 | -9654.0 |
| H2BC5 | -9558.0 |
| TBP | -9553.0 |
| H2AC4 | -9538.0 |
| SAP18 | -9497.0 |
| H3C3 | -9117.0 |
| SIN3A | -9018.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| POLR1H | -8215.0 |
| H2BC10 | -8128.0 |
| H2AC8 | -7580.0 |
| AEBP2 | -7517.0 |
| POLR2E | -7485.0 |
| H3C10 | -7442.0 |
| DDX21 | -7212.0 |
| TAF1D | -7196.0 |
| H4C6 | -7171.0 |
| GSK3B | -6981.0 |
| RRP8 | -6863.0 |
| ARID4B | -6686.0 |
| GATAD2B | -6523.0 |
| H2BC11 | -6443.0 |
| GTF2H3 | -6340.0 |
| POLR1C | -6163.0 |
| H3C8 | -5893.0 |
| POLR1G | -5845.0 |
| CDK7 | -5825.0 |
| H2AJ | -5812.0 |
| KAT2B | -5664.0 |
| H4C12 | -5632.0 |
| MNAT1 | -5299.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| CCNH | -4866.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| SMARCA5 | -4808.0 |
| EED | -4751.0 |
| H2BC8 | -4740.0 |
| POLR1F | -4737.0 |
| BAZ1B | -4618.0 |
| H2AX | -4613.0 |
| POLR1B | -4549.0 |
| EP300 | -4543.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| SUZ12 | -3901.0 |
| PHF1 | -3724.0 |
| POLR2F | -3657.0 |
| H2BC6 | -3615.0 |
| MBD2 | -3520.0 |
| UBTF | -3295.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| GTF2H5 | -3090.0 |
| POLR2H | -2710.0 |
| RBBP4 | -2675.0 |
| CBX3 | -2592.0 |
| UHRF1 | -2453.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| TTF1 | -2113.0 |
| TAF1B | -1985.0 |
| H2BC21 | -1800.0 |
| TET3 | -1654.0 |
| SF3B1 | -1499.0 |
| SAP130 | -1325.0 |
| POLR1D | -1301.0 |
| SIRT1 | -1075.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| POLR2K | -624.0 |
| H2AC20 | -444.0 |
| POLR2L | -372.0 |
| H4C1 | -204.0 |
| KAT2A | -148.0 |
| HDAC1 | 78.0 |
| MTA3 | 331.0 |
| MYO1C | 544.0 |
| H2BC4 | 586.0 |
| ERCC2 | 1041.0 |
| H2BC26 | 1116.0 |
| DNMT3B | 1176.0 |
| TDG | 1762.0 |
| JARID2 | 1891.0 |
| GTF2H1 | 2125.0 |
| EZH2 | 2131.0 |
| POLR1A | 2501.0 |
| HDAC2 | 2992.0 |
| SAP30BP | 3191.0 |
| DNMT3L | 3346.0 |
| MTA2 | 3356.0 |
| BAZ2A | 3715.0 |
| TET1 | 3752.0 |
| ERCC6 | 3768.0 |
| H2AC6 | 3867.0 |
| DEK | 3890.0 |
| PHF19 | 4175.0 |
| MTF2 | 4313.0 |
| TET2 | 4386.0 |
| H2AZ2 | 4572.0 |
| TAF1A | 4620.0 |
| GATAD2A | 5020.0 |
| SIN3B | 5045.0 |
| CHD4 | 5360.0 |
| DNMT1 | 5467.0 |
| GTF2H4 | 5742.0 |
| SAP30L | 5794.0 |
| SUDS3 | 6117.0 |
| DNMT3A | 6119.0 |
| H3C12 | 6531.0 |
| MYBBP1A | 6607.0 |
| H3C2 | 7476.0 |
| EHMT2 | 7491.0 |
| MBD3 | 7891.0 |
| TAF1C | 8532.0 |
| ERCC3 | 8718.0 |
| CHD3 | 8734.0 |
| H4C13 | 8916.0 |
| MTA1 | 9526.0 |
REACTOME_PROCESSING_OF_CAPPED_INTRON_CONTAINING_PRE_MRNA
| 1146 | |
|---|---|
| set | REACTOME_PROCESSING_OF_CAPPED_INTRON_CONTAINING_PRE_MRNA |
| setSize | 263 |
| pANOVA | 1.31e-06 |
| s.dist | -0.173 |
| p.adjustANOVA | 4.58e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| ZCRB1 | -10430 |
| RBM8A | -10237 |
| POLR2J | -10179 |
| CDC5L | -10151 |
| PCF11 | -10113 |
| SEH1L | -10060 |
| METTL3 | -10033 |
| HSPA8 | -9899 |
| SRSF10 | -9852 |
| POLR2I | -9848 |
| NUDT21 | -9812 |
| FAM32A | -9738 |
| HNRNPA1 | -9569 |
| ISY1 | -9568 |
| SNRNP25 | -9549 |
| SAP18 | -9497 |
| WBP11 | -9463 |
| PAPOLA | -9460 |
| SNRNP35 | -9443 |
| SNRPD2 | -9397 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| ZCRB1 | -10430.0 |
| RBM8A | -10237.0 |
| POLR2J | -10179.0 |
| CDC5L | -10151.0 |
| PCF11 | -10113.0 |
| SEH1L | -10060.0 |
| METTL3 | -10033.0 |
| HSPA8 | -9899.0 |
| SRSF10 | -9852.0 |
| POLR2I | -9848.0 |
| NUDT21 | -9812.0 |
| FAM32A | -9738.0 |
| HNRNPA1 | -9569.0 |
| ISY1 | -9568.0 |
| SNRNP25 | -9549.0 |
| SAP18 | -9497.0 |
| WBP11 | -9463.0 |
| PAPOLA | -9460.0 |
| SNRNP35 | -9443.0 |
| SNRPD2 | -9397.0 |
| HNRNPA3 | -9386.0 |
| PRPF38A | -9327.0 |
| NUP42 | -9274.0 |
| NUP43 | -9181.0 |
| SRSF1 | -9112.0 |
| RNPC3 | -8901.0 |
| PCBP1 | -8864.0 |
| SRSF11 | -8835.0 |
| U2SURP | -8815.0 |
| NUP107 | -8608.0 |
| YBX1 | -8570.0 |
| SNW1 | -8558.0 |
| NSRP1 | -8509.0 |
| THOC1 | -8436.0 |
| CPSF2 | -8363.0 |
| SNRPA | -8349.0 |
| SDE2 | -8240.0 |
| WTAP | -8159.0 |
| DDX39A | -8097.0 |
| SNRNP48 | -8067.0 |
| THOC3 | -8050.0 |
| SNU13 | -8031.0 |
| CWC15 | -8013.0 |
| LUC7L3 | -7956.0 |
| NUP37 | -7953.0 |
| METTL14 | -7932.0 |
| NUP160 | -7693.0 |
| SARNP | -7620.5 |
| HNRNPF | -7581.0 |
| SRSF3 | -7539.0 |
| POLR2E | -7485.0 |
| EFTUD2 | -7349.0 |
| HNRNPM | -7129.0 |
| RBM22 | -7035.0 |
| LENG1 | -7033.0 |
| LSM6 | -7013.0 |
| BUD31 | -7007.0 |
| SF3B5 | -6915.0 |
| IK | -6869.0 |
| ZC3H11A | -6721.0 |
| DHX8 | -6691.0 |
| HNRNPL | -6643.0 |
| AQR | -6633.0 |
| UBL5 | -6620.0 |
| HNRNPA2B1 | -6608.0 |
| SNRPG | -6599.0 |
| CPSF6 | -6579.0 |
| NUP50 | -6564.0 |
| SNRPD1 | -6546.0 |
| GLE1 | -6241.0 |
| SNRPD3 | -6155.0 |
| THOC5 | -6040.0 |
| CSTF3 | -5991.0 |
| SF3B3 | -5896.0 |
| SNRNP27 | -5867.0 |
| PRPF40A | -5857.0 |
| SLBP | -5730.0 |
| THOC6 | -5609.0 |
| MTREX | -5589.0 |
| U2AF1L4 | -5492.0 |
| SF3B4 | -5373.0 |
| EIF4E | -5369.0 |
| SNRPN | -5261.0 |
| PPIL3 | -5249.0 |
| LSM3 | -5062.0 |
| NUP153 | -5033.0 |
| DDX46 | -4997.0 |
| PRPF4 | -4948.0 |
| MFAP1 | -4914.0 |
| SNIP1 | -4809.0 |
| ZNF830 | -4785.0 |
| SRSF5 | -4675.0 |
| POLR2C | -4652.0 |
| LSM5 | -4486.0 |
| DDX5 | -4382.0 |
| CWC22 | -4196.0 |
| USP39 | -4155.0 |
| SNRPA1 | -4090.0 |
| PHF5A | -4072.0 |
| RBM7 | -3943.0 |
| CSTF2T | -3889.0 |
| POLDIP3 | -3769.0 |
| CWC27 | -3756.0 |
| HNRNPD | -3747.0 |
| POLR2F | -3657.0 |
| NUP155 | -3436.0 |
| DDX41 | -3384.0 |
| C9orf78 | -3381.0 |
| SRSF2 | -3347.0 |
| YJU2 | -3304.0 |
| MAGOHB | -3262.0 |
| CWF19L2 | -3221.0 |
| ZMAT5 | -3127.0 |
| PPIE | -3077.0 |
| CWC25 | -3009.0 |
| SF3A1 | -2995.0 |
| RBM25 | -2917.0 |
| TPR | -2890.0 |
| POLR2H | -2710.0 |
| PTBP1 | -2639.0 |
| SF3A3 | -2560.0 |
| SNRNP70 | -2548.0 |
| RBM42 | -2524.0 |
| NUP85 | -2443.0 |
| SRSF8 | -2167.0 |
| HNRNPU | -2019.0 |
| DHX35 | -2006.0 |
| WBP4 | -1992.0 |
| NUP98 | -1888.0 |
| PPP1R8 | -1842.0 |
| RBM39 | -1826.0 |
| PLRG1 | -1820.0 |
| CPSF3 | -1733.0 |
| WDR33 | -1722.0 |
| DNAJC8 | -1714.0 |
| SNRNP40 | -1675.0 |
| DDX39B | -1629.0 |
| POLR2G | -1573.0 |
| SMU1 | -1536.0 |
| SRSF9 | -1510.0 |
| SF3B1 | -1499.0 |
| NXT1 | -1374.0 |
| CPSF7 | -1371.0 |
| SYF2 | -1342.0 |
| SNRPF | -1314.0 |
| TRA2B | -1197.0 |
| RBM17 | -1151.0 |
| PPIH | -1067.0 |
| SNRPB2 | -922.0 |
| SF3B2 | -881.0 |
| CCDC12 | -844.0 |
| NXF1 | -751.0 |
| LSM4 | -734.0 |
| POLR2K | -624.0 |
| TXNL4A | -621.0 |
| PABPN1 | -616.0 |
| DDX23 | -601.0 |
| PRPF31 | -470.0 |
| PRKRIP1 | -379.0 |
| POLR2L | -372.0 |
| NUP58 | -237.0 |
| BUD13 | -181.0 |
| SEC13 | 66.0 |
| SLU7 | 114.0 |
| LSM2 | 156.0 |
| CDC40 | 172.0 |
| PPIG | 217.0 |
| SRSF7 | 284.0 |
| PNN | 385.0 |
| NUP35 | 446.0 |
| LSM8 | 468.0 |
| DDX42 | 528.0 |
| CRNKL1 | 530.0 |
| DHX15 | 644.0 |
| CCAR1 | 909.0 |
| SF3A2 | 917.0 |
| HNRNPK | 936.0 |
| CHTOP | 948.0 |
| SMNDC1 | 1137.0 |
| NCBP1 | 1140.0 |
| FIP1L1 | 1178.0 |
| PRCC | 1204.0 |
| ACIN1 | 1244.0 |
| DHX38 | 1248.0 |
| NUP88 | 1334.0 |
| NDC1 | 1422.0 |
| NUP214 | 1526.0 |
| PDCD7 | 1682.0 |
| FYTTD1 | 1764.0 |
| POM121C | 1782.0 |
| RBM5 | 1838.0 |
| CLP1 | 2178.0 |
| ALYREF | 2245.0 |
| NUP188 | 2308.0 |
| GCFC2 | 2667.0 |
| SRRT | 2712.0 |
| NCBP2 | 2717.0 |
| TCERG1 | 2768.0 |
| NUP54 | 2991.0 |
| SF1 | 3041.0 |
| MAGOH | 3043.0 |
| PRPF19 | 3222.0 |
| NUP133 | 3395.0 |
| NUP62 | 3527.0 |
| SNRPC | 3554.0 |
| SRSF6 | 3596.0 |
| ZMAT2 | 3667.0 |
| SUGP1 | 3735.0 |
| HNRNPC | 3774.0 |
| PCBP2 | 3870.0 |
| PRPF3 | 3877.0 |
| WDR70 | 3897.0 |
| GTF2F1 | 3903.0 |
| PPIL1 | 3924.0 |
| GTF2F2 | 3988.0 |
| PPWD1 | 4075.0 |
| CASC3 | 4135.0 |
| RAE1 | 4292.0 |
| GPATCH1 | 4300.0 |
| THOC7 | 4498.0 |
| NUP93 | 4585.0 |
| AAAS | 4604.0 |
| RNPS1 | 4625.0 |
| FUS | 4914.0 |
| PRPF18 | 4952.0 |
| SRSF4 | 5167.0 |
| POLR2D | 5189.0 |
| SRRM2 | 5217.0 |
| NUP205 | 5228.0 |
| CSTF1 | 5309.0 |
| BCAS2 | 5488.0 |
| SRRM1 | 5510.0 |
| HNRNPR | 5524.0 |
| DHX16 | 5615.0 |
| POLR2B | 5721.0 |
| RANBP2 | 5895.0 |
| SNRPB | 5980.0 |
| PPIL4 | 6060.0 |
| PRPF6 | 6065.0 |
| SNRPE | 6152.0 |
| CHERP | 6194.0 |
| DHX9 | 6346.0 |
| CACTIN | 6468.0 |
| TFIP11 | 6515.0 |
| LSM7 | 6575.0 |
| SNRNP200 | 6580.0 |
| HNRNPH1 | 6766.0 |
| POLR2A | 7019.0 |
| POM121 | 7060.0 |
| EIF4A3 | 7144.0 |
| CTNNBL1 | 7396.0 |
| XAB2 | 7472.0 |
| PPIL2 | 7752.0 |
| SART1 | 8131.0 |
| CPSF1 | 8200.0 |
| PRPF8 | 8244.0 |
| CPSF4 | 8260.0 |
| PUF60 | 8431.0 |
| U2AF2 | 8519.0 |
| SRSF12 | 8610.0 |
| SF3B6 | 9215.0 |
| SYMPK | 9413.0 |
| NUP210 | 9431.0 |
REACTOME_HATS_ACETYLATE_HISTONES
| 551 | |
|---|---|
| set | REACTOME_HATS_ACETYLATE_HISTONES |
| setSize | 129 |
| pANOVA | 1.95e-06 |
| s.dist | -0.243 |
| p.adjustANOVA | 6.55e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| MORF4L1 | -10361.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| H2AC11 | -9981.0 |
| H2BC13 | -9956.0 |
| TAF9 | -9926.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| YEATS4 | -9240.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| MORF4L1 | -10361.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| H2AC11 | -9981.0 |
| H2BC13 | -9956.0 |
| TAF9 | -9926.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| YEATS4 | -9240.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| ATXN7L3 | -8924.0 |
| MSL1 | -8915.0 |
| ACTB | -8412.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| BRD8 | -8228.0 |
| H2BC10 | -8128.0 |
| TAF6L | -8070.0 |
| H2AC13 | -8049.0 |
| TAF12 | -8022.0 |
| KAT7 | -7736.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| KAT5 | -7394.0 |
| H4C6 | -7171.0 |
| ELP5 | -7078.0 |
| MSL2 | -6931.0 |
| SUPT7L | -6727.0 |
| MEAF6 | -6696.0 |
| H2BC11 | -6443.0 |
| MBIP | -6324.0 |
| H2AC15 | -6141.0 |
| VPS72 | -6015.0 |
| H3C8 | -5893.0 |
| ATF2 | -5831.0 |
| TAF10 | -5784.0 |
| HAT1 | -5716.0 |
| KAT2B | -5664.0 |
| H4C12 | -5632.0 |
| USP22 | -5519.0 |
| H2AC21 | -5508.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| TADA2A | -5085.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| EP300 | -4543.0 |
| RUVBL2 | -4487.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| ELP3 | -4220.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| SUPT20H | -2221.0 |
| H3C11 | -2128.0 |
| H2AC1 | -2117.0 |
| KANSL3 | -1867.0 |
| H2BC21 | -1800.0 |
| ENY2 | -1784.0 |
| BRPF3 | -1690.0 |
| RUVBL1 | -1335.0 |
| SAP130 | -1325.0 |
| KAT6A | -1269.0 |
| ING4 | -548.0 |
| H2AC20 | -444.0 |
| TADA3 | -417.0 |
| ZZZ3 | -371.0 |
| H4C1 | -204.0 |
| ELP4 | -190.0 |
| KAT2A | -148.0 |
| MCRS1 | 388.0 |
| ATXN7 | 482.0 |
| NCOA2 | 526.0 |
| H2BC4 | 586.0 |
| KANSL2 | 612.0 |
| H2AC12 | 616.0 |
| ING3 | 790.0 |
| H2BC26 | 1116.0 |
| ELP6 | 1170.0 |
| H2AC16 | 1482.0 |
| PAX3 | 1527.0 |
| ELP1 | 1643.0 |
| KANSL1 | 2050.0 |
| ACTL6A | 2338.0 |
| JADE1 | 2638.0 |
| JADE2 | 2704.0 |
| DR1 | 2789.0 |
| H2AC25 | 2805.0 |
| BRPF1 | 2832.0 |
| MRGBP | 3519.0 |
| ING5 | 3802.0 |
| DMAP1 | 3833.0 |
| H2AC6 | 3867.0 |
| EPC1 | 4035.0 |
| CREBBP | 4616.0 |
| KAT6B | 4828.0 |
| CLOCK | 4971.0 |
| YEATS2 | 5117.0 |
| ELP2 | 5585.0 |
| SUPT3H | 5865.0 |
| KAT8 | 6510.0 |
| H3C12 | 6531.0 |
| BRD1 | 6721.0 |
| H3C2 | 7476.0 |
| PHF20 | 7619.0 |
| NCOA1 | 8118.0 |
| EP400 | 8138.0 |
| TADA2B | 8154.0 |
| WDR5 | 8384.0 |
| H4C13 | 8916.0 |
| TRRAP | 8957.0 |
| SGF29 | 9147.0 |
| TADA1 | 10156.0 |
| TAF5L | 10158.0 |
REACTOME_FORMATION_OF_THE_BETA_CATENIN_TCF_TRANSACTIVATING_COMPLEX
| 381 | |
|---|---|
| set | REACTOME_FORMATION_OF_THE_BETA_CATENIN_TCF_TRANSACTIVATING_COMPLEX |
| setSize | 85 |
| pANOVA | 1.96e-06 |
| s.dist | -0.298 |
| p.adjustANOVA | 6.55e-05 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| TLE2 | -9159.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| TCF7 | -8889.0 |
| MYC | -8846.0 |
| H4C5 | -8410.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| TLE2 | -9159.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| TCF7 | -8889.0 |
| MYC | -8846.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2AZ1 | -8280.0 |
| H2BC10 | -8128.0 |
| LEF1 | -8061.0 |
| PYGO2 | -7607.0 |
| H2AC8 | -7580.0 |
| H3C10 | -7442.0 |
| KAT5 | -7394.0 |
| H4C6 | -7171.0 |
| MEN1 | -6843.0 |
| H2BC11 | -6443.0 |
| TCF7L1 | -6380.0 |
| H3C8 | -5893.0 |
| H2AJ | -5812.0 |
| H4C12 | -5632.0 |
| BCL9 | -5565.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| H2BC8 | -4740.0 |
| H2AX | -4613.0 |
| EP300 | -4543.0 |
| H4C9 | -4394.0 |
| RBBP5 | -4288.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| TCF7L2 | -3785.0 |
| H2BC6 | -3615.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| H4C16 | -2435.0 |
| CTNNB1 | -2416.0 |
| H3C11 | -2128.0 |
| H2BC21 | -1800.0 |
| RUVBL1 | -1335.0 |
| H3-3A | -1031.0 |
| H3-3B | -813.0 |
| TCF4 | -593.0 |
| H2AC20 | -444.0 |
| TLE4 | -313.0 |
| H4C1 | -204.0 |
| HDAC1 | 78.0 |
| ASH2L | 91.0 |
| H2BC4 | 586.0 |
| TLE1 | 956.0 |
| H2BC26 | 1116.0 |
| LEO1 | 2772.0 |
| H2AC6 | 3867.0 |
| SMARCA4 | 4099.0 |
| RUNX3 | 4179.0 |
| H2AZ2 | 4572.0 |
| CREBBP | 4616.0 |
| PYGO1 | 5194.0 |
| BCL9L | 5267.0 |
| H3C12 | 6531.0 |
| TLE3 | 7268.0 |
| H3C2 | 7476.0 |
| H3-4 | 7838.0 |
| CDC73 | 8020.0 |
| TERT | 8406.0 |
| AXIN2 | 8766.0 |
| H4C13 | 8916.0 |
| TRRAP | 8957.0 |
| KMT2D | 10859.0 |
REACTOME_HCMV_LATE_EVENTS
| 1466 | |
|---|---|
| set | REACTOME_HCMV_LATE_EVENTS |
| setSize | 110 |
| pANOVA | 3.26e-06 |
| s.dist | -0.257 |
| p.adjustANOVA | 0.000107 |
Top
enriched genes
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| VPS37D | -10354.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| CHMP4C | -10126.0 |
| SEH1L | -10060.0 |
| H2AC11 | -9981.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| NUP42 | -9274.0 |
| TSG101 | -9209.0 |
Click HERE to show all gene set members
| GeneID | Gene Rank |
|---|---|
| H2AC18 | -10545.5 |
| H2AC19 | -10545.5 |
| H2BC17 | -10413.0 |
| VPS37D | -10354.0 |
| H4C8 | -10347.0 |
| H2BC3 | -10249.0 |
| H2BC14 | -10180.0 |
| H4C3 | -10142.0 |
| H2AC17 | -10139.0 |
| CHMP4C | -10126.0 |
| SEH1L | -10060.0 |
| H2AC11 | -9981.0 |
| H2BC13 | -9956.0 |
| H2BC9 | -9924.5 |
| H3C7 | -9924.5 |
| H4C11 | -9725.0 |
| H2BC5 | -9558.0 |
| H2AC4 | -9538.0 |
| NUP42 | -9274.0 |
| TSG101 | -9209.0 |
| NUP43 | -9181.0 |
| H3C3 | -9117.0 |
| H2AC7 | -8983.5 |
| H2BC7 | -8983.5 |
| NUP107 | -8608.0 |
| H4C5 | -8410.0 |
| H3C4 | -8401.0 |
| H2BC10 | -8128.0 |
| H2AC13 | -8049.0 |
| NUP37 | -7953.0 |
| NUP160 | -7693.0 |
| H2AC8 | -7580.0 |
| CHMP1A | -7463.0 |
| H3C10 | -7442.0 |
| H4C6 | -7171.0 |
| CHMP4B | -7128.0 |
| NUP50 | -6564.0 |
| H2BC11 | -6443.0 |
| H2AC15 | -6141.0 |
| UBAP1 | -6026.0 |
| H3C8 | -5893.0 |
| H4C12 | -5632.0 |
| H2AC21 | -5508.0 |
| H4C2 | -5172.0 |
| H2BC15 | -5136.0 |
| NUP153 | -5033.0 |
| H4C4 | -4850.0 |
| H3C1 | -4828.0 |
| MVB12A | -4746.0 |
| H2BC8 | -4740.0 |
| CHMP6 | -4716.0 |
| H4C9 | -4394.0 |
| H3C6 | -4228.0 |
| H2BC12 | -3934.0 |
| H2BC6 | -3615.0 |
| NUP155 | -3436.0 |
| CHMP2A | -3286.0 |
| H2AC14 | -3153.0 |
| H2BC1 | -3120.0 |
| TPR | -2890.0 |
| NUP85 | -2443.0 |
| H4C16 | -2435.0 |
| H3C11 | -2128.0 |
| H2AC1 | -2117.0 |
| NUP98 | -1888.0 |
| H2BC21 | -1800.0 |
| H2AC20 | -444.0 |
| CHMP3 | -349.0 |
| NUP58 | -237.0 |
| H4C1 | -204.0 |
| SEC13 | 66.0 |
| VPS25 | 387.0 |
| NUP35 | 446.0 |
| H2BC4 | 586.0 |
| H2AC12 | 616.0 |
| HNRNPK | 936.0 |
| SNF8 | 1007.0 |
| H2BC26 | 1116.0 |
| NUP88 | 1334.0 |
| NDC1 | 1422.0 |
| H2AC16 | 1482.0 |
| NUP214 | 1526.0 |
| POM121C | 1782.0 |
| NUP188 | 2308.0 |
| VPS37A | 2358.0 |
| H2AC25 | 2805.0 |
| NUP54 | 2991.0 |
| VPS36 | 3218.0 |
| NUP133 | 3395.0 |
| NUP62 | 3527.0 |
| H2AC6 | 3867.0 |
| RAE1 | 4292.0 |
| NUP93 | 4585.0 |
| AAAS | 4604.0 |
| NUP205 | 5228.0 |
| VPS28 | 5306.0 |
| RANBP2 | 5895.0 |
| CHMP7 | 6267.0 |
| VPS4A | 6507.0 |
| H3C12 | 6531.0 |
| VPS37C | 6765.0 |
| POM121 | 7060.0 |
| CHMP4A | 7212.0 |
| H3C2 | 7476.0 |
| VPS37B | 7718.0 |
| CEBPD | 8238.0 |
| MVB12B | 8883.0 |
| H4C13 | 8916.0 |
| NUP210 | 9431.0 |
| CHMP2B | 9475.0 |
Here is the session info with all the versions of packages used.
sessionInfo()## R version 4.3.2 (2023-10-31)
## Platform: x86_64-pc-linux-gnu (64-bit)
## Running under: Ubuntu 22.04.3 LTS
##
## Matrix products: default
## BLAS: /usr/lib/x86_64-linux-gnu/openblas-pthread/libblas.so.3
## LAPACK: /usr/lib/x86_64-linux-gnu/openblas-pthread/libopenblasp-r0.3.20.so; LAPACK version 3.10.0
##
## locale:
## [1] LC_CTYPE=en_US.UTF-8 LC_NUMERIC=C
## [3] LC_TIME=en_US.UTF-8 LC_COLLATE=en_US.UTF-8
## [5] LC_MONETARY=en_US.UTF-8 LC_MESSAGES=en_US.UTF-8
## [7] LC_PAPER=en_US.UTF-8 LC_NAME=C
## [9] LC_ADDRESS=C LC_TELEPHONE=C
## [11] LC_MEASUREMENT=en_US.UTF-8 LC_IDENTIFICATION=C
##
## time zone: Etc/UTC
## tzcode source: system (glibc)
##
## attached base packages:
## [1] parallel stats4 stats graphics grDevices utils datasets
## [8] methods base
##
## other attached packages:
## [1] pkgload_1.3.3
## [2] GGally_2.2.0
## [3] ggplot2_3.4.4
## [4] reshape2_1.4.4
## [5] gtools_3.9.5
## [6] tibble_3.2.1
## [7] dplyr_1.1.4
## [8] echarts4r_0.4.5
## [9] png_0.1-8
## [10] gridExtra_2.3
## [11] missMethyl_1.36.0
## [12] IlluminaHumanMethylation450kanno.ilmn12.hg19_0.6.1
## [13] beeswarm_0.4.0
## [14] kableExtra_1.3.4
## [15] gplots_3.1.3
## [16] mitch_1.15.0
## [17] tictoc_1.2
## [18] HGNChelper_0.8.1
## [19] IlluminaHumanMethylationEPICanno.ilm10b4.hg19_0.6.0
## [20] IlluminaHumanMethylation450kmanifest_0.4.0
## [21] minfi_1.48.0
## [22] bumphunter_1.44.0
## [23] locfit_1.5-9.8
## [24] iterators_1.0.14
## [25] foreach_1.5.2
## [26] Biostrings_2.70.1
## [27] XVector_0.42.0
## [28] SummarizedExperiment_1.32.0
## [29] Biobase_2.62.0
## [30] MatrixGenerics_1.14.0
## [31] matrixStats_1.2.0
## [32] GenomicRanges_1.54.1
## [33] GenomeInfoDb_1.38.2
## [34] IRanges_2.36.0
## [35] S4Vectors_0.40.2
## [36] BiocGenerics_0.48.1
## [37] eulerr_7.0.0
## [38] limma_3.58.1
##
## loaded via a namespace (and not attached):
## [1] splines_4.3.2 later_1.3.2
## [3] BiocIO_1.12.0 bitops_1.0-7
## [5] filelock_1.0.3 preprocessCore_1.64.0
## [7] XML_3.99-0.16 lifecycle_1.0.4
## [9] lattice_0.22-5 MASS_7.3-60
## [11] base64_2.0.1 scrime_1.3.5
## [13] magrittr_2.0.3 sass_0.4.8
## [15] rmarkdown_2.25 jquerylib_0.1.4
## [17] yaml_2.3.8 httpuv_1.6.13
## [19] doRNG_1.8.6 askpass_1.2.0
## [21] DBI_1.1.3 RColorBrewer_1.1-3
## [23] abind_1.4-5 zlibbioc_1.48.0
## [25] rvest_1.0.3 quadprog_1.5-8
## [27] purrr_1.0.2 RCurl_1.98-1.13
## [29] rappdirs_0.3.3 GenomeInfoDbData_1.2.11
## [31] genefilter_1.84.0 annotate_1.80.0
## [33] svglite_2.1.3 DelayedMatrixStats_1.24.0
## [35] codetools_0.2-19 DelayedArray_0.28.0
## [37] xml2_1.3.6 tidyselect_1.2.0
## [39] beanplot_1.3.1 BiocFileCache_2.10.1
## [41] webshot_0.5.5 illuminaio_0.44.0
## [43] GenomicAlignments_1.38.0 jsonlite_1.8.8
## [45] multtest_2.58.0 ellipsis_0.3.2
## [47] survival_3.5-7 systemfonts_1.0.5
## [49] tools_4.3.2 progress_1.2.3
## [51] Rcpp_1.0.11 glue_1.6.2
## [53] SparseArray_1.2.2 xfun_0.41
## [55] HDF5Array_1.30.0 withr_2.5.2
## [57] fastmap_1.1.1 rhdf5filters_1.14.1
## [59] fansi_1.0.6 openssl_2.1.1
## [61] caTools_1.18.2 digest_0.6.33
## [63] R6_2.5.1 mime_0.12
## [65] colorspace_2.1-0 biomaRt_2.58.0
## [67] RSQLite_2.3.4 utf8_1.2.4
## [69] tidyr_1.3.0 generics_0.1.3
## [71] data.table_1.14.10 rtracklayer_1.62.0
## [73] prettyunits_1.2.0 httr_1.4.7
## [75] htmlwidgets_1.6.4 S4Arrays_1.2.0
## [77] ggstats_0.5.1 pkgconfig_2.0.3
## [79] gtable_0.3.4 blob_1.2.4
## [81] siggenes_1.76.0 htmltools_0.5.7
## [83] scales_1.3.0 rstudioapi_0.15.0
## [85] knitr_1.45 tzdb_0.4.0
## [87] rjson_0.2.21 nlme_3.1-163
## [89] curl_5.2.0 org.Hs.eg.db_3.18.0
## [91] cachem_1.0.8 rhdf5_2.46.1
## [93] stringr_1.5.1 KernSmooth_2.23-22
## [95] AnnotationDbi_1.64.1 restfulr_0.0.15
## [97] GEOquery_2.70.0 pillar_1.9.0
## [99] grid_4.3.2 reshape_0.8.9
## [101] vctrs_0.6.5 promises_1.2.1
## [103] dbplyr_2.4.0 xtable_1.8-4
## [105] evaluate_0.23 readr_2.1.4
## [107] GenomicFeatures_1.54.1 cli_3.6.2
## [109] compiler_4.3.2 Rsamtools_2.18.0
## [111] rlang_1.1.2 crayon_1.5.2
## [113] rngtools_1.5.2 nor1mix_1.3-2
## [115] mclust_6.0.1 plyr_1.8.9
## [117] stringi_1.8.3 viridisLite_0.4.2
## [119] BiocParallel_1.36.0 munsell_0.5.0
## [121] Matrix_1.6-1.1 hms_1.1.3
## [123] sparseMatrixStats_1.14.0 bit64_4.0.5
## [125] Rhdf5lib_1.24.1 KEGGREST_1.42.0
## [127] statmod_1.5.0 shiny_1.8.0
## [129] highr_0.10 memoise_2.0.1
## [131] bslib_0.6.1 bit_4.0.5END of report