date generated: 2023-08-29
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
Here is the first few lines of the input profile.
x | |
---|---|
0610009B22Rik | 0.0972207 |
0610009E02Rik | 1.2632625 |
0610009L18Rik | -0.6637497 |
0610010K14Rik | -0.4536898 |
0610012G03Rik | 0.1223624 |
0610030E20Rik | -0.0456229 |
Here are some metrics about the input data profile:
Profile metrics | |
---|---|
num_genesets | 1604 |
num_genes_in_profile | 17098 |
duplicated_genes_present | 0 |
num_profile_genes_in_sets | 8378 |
num_profile_genes_not_in_sets | 8720 |
Here is a plot of the input profiles. Note the dynamic ranges.
Here is the contour plot of the profile including all detected genes.
Here are some metrics about the gene sets used:
GMT file of genesets: mouse_msigdb_reactome_2022-02-16.gmtGene sets metrics | |
---|---|
num_genesets | 1604 |
num_genesets_excluded | 426 |
num_genesets_included | 1178 |
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.
Top N= 50 gene sets
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set | setSize | pANOVA | s.dist | p.adjustANOVA |
---|---|---|---|---|
EUKARYOTIC TRANSLATION ELONGATION | 87 | 5.17e-34 | 0.753 | 6.09e-31 |
SRP DEPENDENT COTRANSLATIONAL PROTEIN TARGETING TO MEMBRANE | 106 | 4.20e-33 | 0.673 | 2.48e-30 |
RESPONSE OF EIF2AK4 GCN2 TO AMINO ACID DEFICIENCY | 95 | 7.19e-28 | 0.649 | 1.69e-25 |
EUKARYOTIC TRANSLATION INITIATION | 114 | 5.73e-31 | 0.627 | 1.69e-28 |
REGULATION OF COMMISSURAL AXON PATHFINDING BY SLIT AND ROBO | 10 | 6.07e-04 | -0.626 | 6.68e-03 |
YAP1 AND WWTR1 TAZ STIMULATED GENE EXPRESSION | 11 | 4.34e-04 | 0.613 | 5.06e-03 |
ACTIVATION OF THE MRNA UPON BINDING OF THE CAP BINDING COMPLEX AND EIFS AND SUBSEQUENT BINDING TO 43S | 59 | 9.30e-15 | 0.583 | 7.83e-13 |
SELENOAMINO ACID METABOLISM | 109 | 2.19e-25 | 0.577 | 4.30e-23 |
ACTIVATION OF THE AP 1 FAMILY OF TRANSCRIPTION FACTORS | 10 | 2.45e-03 | -0.553 | 2.09e-02 |
FORMATION OF ATP BY CHEMIOSMOTIC COUPLING | 18 | 7.65e-05 | 0.538 | 1.35e-03 |
NONSENSE MEDIATED DECAY NMD | 109 | 3.03e-21 | 0.524 | 3.96e-19 |
COMPLEX I BIOGENESIS | 56 | 1.98e-11 | 0.518 | 1.23e-09 |
CLASS C 3 METABOTROPIC GLUTAMATE PHEROMONE RECEPTORS | 12 | 1.98e-03 | -0.516 | 1.75e-02 |
SEROTONIN NEUROTRANSMITTER RELEASE CYCLE | 18 | 1.96e-04 | -0.507 | 2.83e-03 |
ACETYLCHOLINE BINDING AND DOWNSTREAM EVENTS | 10 | 6.12e-03 | -0.501 | 4.51e-02 |
HIGHLY CALCIUM PERMEABLE POSTSYNAPTIC NICOTINIC ACETYLCHOLINE RECEPTORS | 10 | 6.12e-03 | -0.501 | 4.51e-02 |
ENDOSOMAL VACUOLAR PATHWAY | 11 | 4.85e-03 | 0.490 | 3.81e-02 |
SYNTHESIS OF PROSTAGLANDINS PG AND THROMBOXANES TX | 13 | 3.17e-03 | 0.473 | 2.66e-02 |
REGULATION OF EXPRESSION OF SLITS AND ROBOS | 160 | 9.64e-25 | 0.470 | 1.42e-22 |
RESPIRATORY ELECTRON TRANSPORT ATP SYNTHESIS BY CHEMIOSMOTIC COUPLING AND HEAT PRODUCTION BY UNCOUPLING PROTEINS | 125 | 6.11e-19 | 0.460 | 7.20e-17 |
RESPIRATORY ELECTRON TRANSPORT | 102 | 1.46e-15 | 0.457 | 1.43e-13 |
NEUROTOXICITY OF CLOSTRIDIUM TOXINS | 10 | 1.33e-02 | -0.452 | 8.42e-02 |
HDR THROUGH MMEJ ALT NHEJ | 10 | 1.36e-02 | -0.451 | 8.51e-02 |
CASPASE ACTIVATION VIA DEPENDENCE RECEPTORS IN THE ABSENCE OF LIGAND | 10 | 1.45e-02 | -0.446 | 8.82e-02 |
GLUTATHIONE CONJUGATION | 29 | 5.61e-05 | 0.432 | 1.12e-03 |
SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 7ALPHA HYDROXYCHOLESTEROL | 12 | 1.00e-02 | 0.429 | 6.77e-02 |
PHASE 4 RESTING MEMBRANE POTENTIAL | 14 | 6.05e-03 | -0.424 | 4.51e-02 |
DSCAM INTERACTIONS | 10 | 2.07e-02 | -0.422 | 1.13e-01 |
RESOLUTION OF D LOOP STRUCTURES THROUGH SYNTHESIS DEPENDENT STRAND ANNEALING SDSA | 24 | 3.78e-04 | -0.419 | 4.55e-03 |
CELLULAR RESPONSE TO STARVATION | 146 | 4.64e-18 | 0.415 | 4.97e-16 |
CROSS PRESENTATION OF SOLUBLE EXOGENOUS ANTIGENS ENDOSOMES | 46 | 1.20e-06 | 0.414 | 4.41e-05 |
MITOCHONDRIAL FATTY ACID BETA OXIDATION | 34 | 2.98e-05 | 0.414 | 6.75e-04 |
TRANSLATION | 286 | 7.55e-33 | 0.410 | 2.96e-30 |
REGULATION OF GLUCOKINASE BY GLUCOKINASE REGULATORY PROTEIN | 29 | 1.33e-04 | -0.410 | 2.12e-03 |
EXPORT OF VIRAL RIBONUCLEOPROTEINS FROM NUCLEUS | 31 | 8.26e-05 | -0.409 | 1.43e-03 |
ALPHA LINOLENIC OMEGA3 AND LINOLEIC OMEGA6 ACID METABOLISM | 12 | 1.44e-02 | 0.408 | 8.82e-02 |
ANTIGEN PROCESSING CROSS PRESENTATION | 97 | 4.31e-12 | 0.407 | 2.82e-10 |
BRANCHED CHAIN AMINO ACID CATABOLISM | 21 | 1.25e-03 | 0.407 | 1.22e-02 |
KERATAN SULFATE DEGRADATION | 12 | 1.48e-02 | 0.406 | 8.83e-02 |
METABOLIC DISORDERS OF BIOLOGICAL OXIDATION ENZYMES | 21 | 1.35e-03 | 0.404 | 1.30e-02 |
CS DS DEGRADATION | 14 | 9.47e-03 | 0.400 | 6.56e-02 |
ASSEMBLY OF ACTIVE LPL AND LIPC LIPASE COMPLEXES | 10 | 3.05e-02 | -0.395 | 1.47e-01 |
PHASE 0 RAPID DEPOLARISATION | 30 | 2.22e-04 | -0.389 | 3.05e-03 |
G PROTEIN ACTIVATION | 22 | 1.71e-03 | 0.386 | 1.58e-02 |
NUCLEAR PORE COMPLEX NPC DISASSEMBLY | 32 | 1.58e-04 | -0.386 | 2.42e-03 |
RIP MEDIATED NFKB ACTIVATION VIA ZBP1 | 15 | 9.88e-03 | 0.385 | 6.77e-02 |
THROMBOXANE SIGNALLING THROUGH TP RECEPTOR | 22 | 1.96e-03 | 0.381 | 1.75e-02 |
CRISTAE FORMATION | 31 | 2.41e-04 | 0.381 | 3.19e-03 |
SUMOYLATION OF SUMOYLATION PROTEINS | 33 | 1.68e-04 | -0.379 | 2.54e-03 |
ASPARTATE AND ASPARAGINE METABOLISM | 10 | 3.82e-02 | -0.378 | 1.69e-01 |
set | setSize | pANOVA | s.dist | p.adjustANOVA |
---|---|---|---|---|
EUKARYOTIC TRANSLATION ELONGATION | 87 | 5.17e-34 | 7.53e-01 | 6.09e-31 |
SRP DEPENDENT COTRANSLATIONAL PROTEIN TARGETING TO MEMBRANE | 106 | 4.20e-33 | 6.73e-01 | 2.48e-30 |
RESPONSE OF EIF2AK4 GCN2 TO AMINO ACID DEFICIENCY | 95 | 7.19e-28 | 6.49e-01 | 1.69e-25 |
EUKARYOTIC TRANSLATION INITIATION | 114 | 5.73e-31 | 6.27e-01 | 1.69e-28 |
REGULATION OF COMMISSURAL AXON PATHFINDING BY SLIT AND ROBO | 10 | 6.07e-04 | -6.26e-01 | 6.68e-03 |
YAP1 AND WWTR1 TAZ STIMULATED GENE EXPRESSION | 11 | 4.34e-04 | 6.13e-01 | 5.06e-03 |
ACTIVATION OF THE MRNA UPON BINDING OF THE CAP BINDING COMPLEX AND EIFS AND SUBSEQUENT BINDING TO 43S | 59 | 9.30e-15 | 5.83e-01 | 7.83e-13 |
SELENOAMINO ACID METABOLISM | 109 | 2.19e-25 | 5.77e-01 | 4.30e-23 |
ACTIVATION OF THE AP 1 FAMILY OF TRANSCRIPTION FACTORS | 10 | 2.45e-03 | -5.53e-01 | 2.09e-02 |
FORMATION OF ATP BY CHEMIOSMOTIC COUPLING | 18 | 7.65e-05 | 5.38e-01 | 1.35e-03 |
NONSENSE MEDIATED DECAY NMD | 109 | 3.03e-21 | 5.24e-01 | 3.96e-19 |
COMPLEX I BIOGENESIS | 56 | 1.98e-11 | 5.18e-01 | 1.23e-09 |
CLASS C 3 METABOTROPIC GLUTAMATE PHEROMONE RECEPTORS | 12 | 1.98e-03 | -5.16e-01 | 1.75e-02 |
SEROTONIN NEUROTRANSMITTER RELEASE CYCLE | 18 | 1.96e-04 | -5.07e-01 | 2.83e-03 |
ACETYLCHOLINE BINDING AND DOWNSTREAM EVENTS | 10 | 6.12e-03 | -5.01e-01 | 4.51e-02 |
HIGHLY CALCIUM PERMEABLE POSTSYNAPTIC NICOTINIC ACETYLCHOLINE RECEPTORS | 10 | 6.12e-03 | -5.01e-01 | 4.51e-02 |
ENDOSOMAL VACUOLAR PATHWAY | 11 | 4.85e-03 | 4.90e-01 | 3.81e-02 |
SYNTHESIS OF PROSTAGLANDINS PG AND THROMBOXANES TX | 13 | 3.17e-03 | 4.73e-01 | 2.66e-02 |
REGULATION OF EXPRESSION OF SLITS AND ROBOS | 160 | 9.64e-25 | 4.70e-01 | 1.42e-22 |
RESPIRATORY ELECTRON TRANSPORT ATP SYNTHESIS BY CHEMIOSMOTIC COUPLING AND HEAT PRODUCTION BY UNCOUPLING PROTEINS | 125 | 6.11e-19 | 4.60e-01 | 7.20e-17 |
RESPIRATORY ELECTRON TRANSPORT | 102 | 1.46e-15 | 4.57e-01 | 1.43e-13 |
NEUROTOXICITY OF CLOSTRIDIUM TOXINS | 10 | 1.33e-02 | -4.52e-01 | 8.42e-02 |
HDR THROUGH MMEJ ALT NHEJ | 10 | 1.36e-02 | -4.51e-01 | 8.51e-02 |
CASPASE ACTIVATION VIA DEPENDENCE RECEPTORS IN THE ABSENCE OF LIGAND | 10 | 1.45e-02 | -4.46e-01 | 8.82e-02 |
GLUTATHIONE CONJUGATION | 29 | 5.61e-05 | 4.32e-01 | 1.12e-03 |
SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 7ALPHA HYDROXYCHOLESTEROL | 12 | 1.00e-02 | 4.29e-01 | 6.77e-02 |
PHASE 4 RESTING MEMBRANE POTENTIAL | 14 | 6.05e-03 | -4.24e-01 | 4.51e-02 |
DSCAM INTERACTIONS | 10 | 2.07e-02 | -4.22e-01 | 1.13e-01 |
RESOLUTION OF D LOOP STRUCTURES THROUGH SYNTHESIS DEPENDENT STRAND ANNEALING SDSA | 24 | 3.78e-04 | -4.19e-01 | 4.55e-03 |
CELLULAR RESPONSE TO STARVATION | 146 | 4.64e-18 | 4.15e-01 | 4.97e-16 |
CROSS PRESENTATION OF SOLUBLE EXOGENOUS ANTIGENS ENDOSOMES | 46 | 1.20e-06 | 4.14e-01 | 4.41e-05 |
MITOCHONDRIAL FATTY ACID BETA OXIDATION | 34 | 2.98e-05 | 4.14e-01 | 6.75e-04 |
TRANSLATION | 286 | 7.55e-33 | 4.10e-01 | 2.96e-30 |
REGULATION OF GLUCOKINASE BY GLUCOKINASE REGULATORY PROTEIN | 29 | 1.33e-04 | -4.10e-01 | 2.12e-03 |
EXPORT OF VIRAL RIBONUCLEOPROTEINS FROM NUCLEUS | 31 | 8.26e-05 | -4.09e-01 | 1.43e-03 |
ALPHA LINOLENIC OMEGA3 AND LINOLEIC OMEGA6 ACID METABOLISM | 12 | 1.44e-02 | 4.08e-01 | 8.82e-02 |
ANTIGEN PROCESSING CROSS PRESENTATION | 97 | 4.31e-12 | 4.07e-01 | 2.82e-10 |
BRANCHED CHAIN AMINO ACID CATABOLISM | 21 | 1.25e-03 | 4.07e-01 | 1.22e-02 |
KERATAN SULFATE DEGRADATION | 12 | 1.48e-02 | 4.06e-01 | 8.83e-02 |
METABOLIC DISORDERS OF BIOLOGICAL OXIDATION ENZYMES | 21 | 1.35e-03 | 4.04e-01 | 1.30e-02 |
CS DS DEGRADATION | 14 | 9.47e-03 | 4.00e-01 | 6.56e-02 |
ASSEMBLY OF ACTIVE LPL AND LIPC LIPASE COMPLEXES | 10 | 3.05e-02 | -3.95e-01 | 1.47e-01 |
PHASE 0 RAPID DEPOLARISATION | 30 | 2.22e-04 | -3.89e-01 | 3.05e-03 |
G PROTEIN ACTIVATION | 22 | 1.71e-03 | 3.86e-01 | 1.58e-02 |
NUCLEAR PORE COMPLEX NPC DISASSEMBLY | 32 | 1.58e-04 | -3.86e-01 | 2.42e-03 |
RIP MEDIATED NFKB ACTIVATION VIA ZBP1 | 15 | 9.88e-03 | 3.85e-01 | 6.77e-02 |
THROMBOXANE SIGNALLING THROUGH TP RECEPTOR | 22 | 1.96e-03 | 3.81e-01 | 1.75e-02 |
CRISTAE FORMATION | 31 | 2.41e-04 | 3.81e-01 | 3.19e-03 |
SUMOYLATION OF SUMOYLATION PROTEINS | 33 | 1.68e-04 | -3.79e-01 | 2.54e-03 |
ASPARTATE AND ASPARAGINE METABOLISM | 10 | 3.82e-02 | -3.78e-01 | 1.69e-01 |
LGI ADAM INTERACTIONS | 14 | 1.44e-02 | -3.78e-01 | 8.82e-02 |
SUMOYLATION OF RNA BINDING PROTEINS | 45 | 1.28e-05 | -3.76e-01 | 3.43e-04 |
METABOLISM OF ANGIOTENSINOGEN TO ANGIOTENSINS | 11 | 3.09e-02 | 3.76e-01 | 1.47e-01 |
REGULATION OF GLYCOLYSIS BY FRUCTOSE 2 6 BISPHOSPHATE METABOLISM | 11 | 3.09e-02 | -3.76e-01 | 1.47e-01 |
NUCLEAR IMPORT OF REV PROTEIN | 32 | 2.51e-04 | -3.74e-01 | 3.21e-03 |
NOREPINEPHRINE NEUROTRANSMITTER RELEASE CYCLE | 17 | 8.01e-03 | -3.71e-01 | 5.72e-02 |
INTERACTIONS OF VPR WITH HOST CELLULAR PROTEINS | 34 | 1.97e-04 | -3.69e-01 | 2.83e-03 |
ZBP1 DAI MEDIATED INDUCTION OF TYPE I IFNS | 18 | 6.87e-03 | 3.68e-01 | 4.97e-02 |
DETOXIFICATION OF REACTIVE OXYGEN SPECIES | 33 | 2.57e-04 | 3.68e-01 | 3.22e-03 |
GLUTATHIONE SYNTHESIS AND RECYCLING | 11 | 3.48e-02 | 3.68e-01 | 1.61e-01 |
DOPAMINE NEUROTRANSMITTER RELEASE CYCLE | 23 | 2.41e-03 | -3.66e-01 | 2.09e-02 |
SYNTHESIS OF PIPS AT THE LATE ENDOSOME MEMBRANE | 11 | 3.60e-02 | -3.65e-01 | 1.63e-01 |
IKK COMPLEX RECRUITMENT MEDIATED BY RIP1 | 21 | 3.86e-03 | 3.64e-01 | 3.14e-02 |
VOLTAGE GATED POTASSIUM CHANNELS | 39 | 8.46e-05 | -3.64e-01 | 1.44e-03 |
FORMATION OF SENESCENCE ASSOCIATED HETEROCHROMATIN FOCI SAHF | 14 | 1.88e-02 | -3.63e-01 | 1.07e-01 |
STABILIZATION OF P53 | 54 | 4.21e-06 | 3.62e-01 | 1.38e-04 |
TRANSPORT OF MATURE MRNAS DERIVED FROM INTRONLESS TRANSCRIPTS | 41 | 6.41e-05 | -3.61e-01 | 1.18e-03 |
NS1 MEDIATED EFFECTS ON HOST PATHWAYS | 37 | 1.46e-04 | -3.61e-01 | 2.30e-03 |
AUF1 HNRNP D0 BINDS AND DESTABILIZES MRNA | 53 | 5.60e-06 | 3.61e-01 | 1.69e-04 |
INFLUENZA INFECTION | 145 | 8.19e-14 | 3.59e-01 | 5.68e-12 |
ACETYLCHOLINE NEUROTRANSMITTER RELEASE CYCLE | 17 | 1.04e-02 | -3.59e-01 | 7.00e-02 |
MITOCHONDRIAL TRANSLATION | 93 | 2.61e-09 | 3.57e-01 | 1.34e-07 |
ACTIVATION OF MATRIX METALLOPROTEINASES | 14 | 2.20e-02 | -3.54e-01 | 1.17e-01 |
RETINOID CYCLE DISEASE EVENTS | 10 | 5.30e-02 | 3.53e-01 | 2.13e-01 |
ACTIVATION OF IRF3 IRF7 MEDIATED BY TBK1 IKK EPSILON | 16 | 1.45e-02 | 3.53e-01 | 8.82e-02 |
INTERACTIONS OF REV WITH HOST CELLULAR PROTEINS | 35 | 3.22e-04 | -3.51e-01 | 3.91e-03 |
METABOLISM OF POLYAMINES | 57 | 5.22e-06 | 3.49e-01 | 1.66e-04 |
DEFECTIVE CFTR CAUSES CYSTIC FIBROSIS | 59 | 3.59e-06 | 3.49e-01 | 1.25e-04 |
CELLULAR RESPONSE TO HYPOXIA | 72 | 3.11e-07 | 3.49e-01 | 1.26e-05 |
IMMUNOREGULATORY INTERACTIONS BETWEEN A LYMPHOID AND A NON LYMPHOID CELL | 48 | 3.58e-05 | 3.45e-01 | 7.82e-04 |
NEGATIVE REGULATION OF NOTCH4 SIGNALING | 54 | 1.27e-05 | 3.43e-01 | 3.43e-04 |
DECTIN 1 MEDIATED NONCANONICAL NF KB SIGNALING | 59 | 5.39e-06 | 3.42e-01 | 1.67e-04 |
HEDGEHOG LIGAND BIOGENESIS | 61 | 4.22e-06 | 3.41e-01 | 1.38e-04 |
METABOLISM OF AMINO ACIDS AND DERIVATIVES | 315 | 3.75e-25 | 3.40e-01 | 6.30e-23 |
TRANSCRIPTIONAL REGULATION OF PLURIPOTENT STEM CELLS | 19 | 1.05e-02 | 3.39e-01 | 7.04e-02 |
REDUCTION OF CYTOSOLIC CA LEVELS | 11 | 5.18e-02 | -3.39e-01 | 2.09e-01 |
DEGRADATION OF AXIN | 53 | 2.27e-05 | 3.36e-01 | 5.26e-04 |
P75NTR REGULATES AXONOGENESIS | 10 | 6.88e-02 | -3.32e-01 | 2.54e-01 |
THE CITRIC ACID TCA CYCLE AND RESPIRATORY ELECTRON TRANSPORT | 172 | 6.14e-14 | 3.32e-01 | 4.52e-12 |
DEGRADATION OF DVL | 55 | 2.13e-05 | 3.31e-01 | 5.11e-04 |
PROSTACYCLIN SIGNALLING THROUGH PROSTACYCLIN RECEPTOR | 16 | 2.18e-02 | 3.31e-01 | 1.17e-01 |
ADP SIGNALLING THROUGH P2Y PURINOCEPTOR 12 | 19 | 1.29e-02 | 3.30e-01 | 8.32e-02 |
REGULATION OF TLR BY ENDOGENOUS LIGAND | 12 | 4.81e-02 | 3.29e-01 | 1.98e-01 |
ARACHIDONIC ACID METABOLISM | 38 | 4.49e-04 | 3.29e-01 | 5.19e-03 |
REGULATION OF RUNX3 EXPRESSION AND ACTIVITY | 53 | 3.88e-05 | 3.27e-01 | 8.32e-04 |
SUMOYLATION OF UBIQUITINYLATION PROTEINS | 37 | 5.99e-04 | -3.26e-01 | 6.66e-03 |
PRESYNAPTIC DEPOLARIZATION AND CALCIUM CHANNEL OPENING | 11 | 6.12e-02 | -3.26e-01 | 2.32e-01 |
THE CANONICAL RETINOID CYCLE IN RODS TWILIGHT VISION | 14 | 3.51e-02 | 3.25e-01 | 1.61e-01 |
TRANSPORT OF THE SLBP DEPENDANT MATURE MRNA | 34 | 1.04e-03 | -3.25e-01 | 1.04e-02 |
SYNTHESIS OF PIPS AT THE EARLY ENDOSOME MEMBRANE | 16 | 2.57e-02 | -3.22e-01 | 1.33e-01 |
COMPLEMENT CASCADE | 25 | 5.43e-03 | 3.21e-01 | 4.10e-02 |
SCF SKP2 MEDIATED DEGRADATION OF P27 P21 | 59 | 2.04e-05 | 3.21e-01 | 5.01e-04 |
MATURATION OF NUCLEOPROTEIN | 10 | 7.98e-02 | -3.20e-01 | 2.79e-01 |
RA BIOSYNTHESIS PATHWAY | 12 | 5.56e-02 | 3.19e-01 | 2.21e-01 |
TICAM1 RIP1 MEDIATED IKK COMPLEX RECRUITMENT | 18 | 1.95e-02 | 3.18e-01 | 1.09e-01 |
SIGNALING BY ROBO RECEPTORS | 205 | 4.78e-15 | 3.17e-01 | 4.33e-13 |
RRNA PROCESSING | 194 | 3.19e-14 | 3.16e-01 | 2.51e-12 |
PROCESSING OF INTRONLESS PRE MRNAS | 19 | 1.74e-02 | -3.15e-01 | 1.00e-01 |
ASYMMETRIC LOCALIZATION OF PCP PROTEINS | 62 | 2.04e-05 | 3.13e-01 | 5.01e-04 |
TRAFFICKING OF GLUR2 CONTAINING AMPA RECEPTORS | 17 | 2.58e-02 | -3.12e-01 | 1.34e-01 |
PKA ACTIVATION IN GLUCAGON SIGNALLING | 16 | 3.10e-02 | -3.12e-01 | 1.47e-01 |
ROLE OF SECOND MESSENGERS IN NETRIN 1 SIGNALING | 10 | 8.99e-02 | -3.10e-01 | 3.03e-01 |
ATF6 ATF6 ALPHA ACTIVATES CHAPERONE GENES | 10 | 9.08e-02 | 3.09e-01 | 3.06e-01 |
RESOLUTION OF D LOOP STRUCTURES | 30 | 3.42e-03 | -3.09e-01 | 2.82e-02 |
REGULATION OF HMOX1 EXPRESSION AND ACTIVITY | 63 | 2.28e-05 | 3.09e-01 | 5.26e-04 |
CREB1 PHOSPHORYLATION THROUGH THE ACTIVATION OF ADENYLATE CYCLASE | 11 | 7.64e-02 | -3.09e-01 | 2.74e-01 |
G BETA GAMMA SIGNALLING THROUGH CDC42 | 18 | 2.35e-02 | 3.09e-01 | 1.24e-01 |
BETA OXIDATION OF VERY LONG CHAIN FATTY ACIDS | 11 | 7.68e-02 | 3.08e-01 | 2.74e-01 |
SYNTHESIS OF PIPS AT THE GOLGI MEMBRANE | 15 | 3.89e-02 | -3.08e-01 | 1.71e-01 |
DEGRADATION OF GLI1 BY THE PROTEASOME | 57 | 6.33e-05 | 3.06e-01 | 1.18e-03 |
SUMOYLATION OF CHROMATIN ORGANIZATION PROTEINS | 58 | 5.78e-05 | -3.05e-01 | 1.12e-03 |
ACTIVATION OF BH3 ONLY PROTEINS | 30 | 4.10e-03 | -3.03e-01 | 3.29e-02 |
ACYL CHAIN REMODELLING OF PC | 16 | 3.71e-02 | 3.01e-01 | 1.66e-01 |
INTERLEUKIN 6 SIGNALING | 10 | 1.00e-01 | 3.00e-01 | 3.20e-01 |
INITIAL TRIGGERING OF COMPLEMENT | 11 | 8.49e-02 | 3.00e-01 | 2.90e-01 |
ADP SIGNALLING THROUGH P2Y PURINOCEPTOR 1 | 23 | 1.30e-02 | 2.99e-01 | 8.32e-02 |
SIGNAL AMPLIFICATION | 30 | 4.97e-03 | 2.96e-01 | 3.85e-02 |
INTERLEUKIN 6 FAMILY SIGNALING | 20 | 2.19e-02 | 2.96e-01 | 1.17e-01 |
INTERLEUKIN 15 SIGNALING | 12 | 7.78e-02 | -2.94e-01 | 2.77e-01 |
RHO GTPASES ACTIVATE CIT | 18 | 3.12e-02 | 2.93e-01 | 1.47e-01 |
CYTOSOLIC IRON SULFUR CLUSTER ASSEMBLY | 13 | 6.72e-02 | 2.93e-01 | 2.52e-01 |
MAPK TARGETS NUCLEAR EVENTS MEDIATED BY MAP KINASES | 31 | 4.80e-03 | -2.93e-01 | 3.79e-02 |
SYNTHESIS OF IP2 IP AND INS IN THE CYTOSOL | 13 | 6.78e-02 | -2.93e-01 | 2.52e-01 |
ANTIGEN PRESENTATION FOLDING ASSEMBLY AND PEPTIDE LOADING OF CLASS I MHC | 25 | 1.14e-02 | 2.92e-01 | 7.54e-02 |
DISEASES ASSOCIATED WITH GLYCOSAMINOGLYCAN METABOLISM | 40 | 1.44e-03 | 2.91e-01 | 1.36e-02 |
PROTEIN METHYLATION | 17 | 3.85e-02 | 2.90e-01 | 1.70e-01 |
G1 S DNA DAMAGE CHECKPOINTS | 65 | 5.70e-05 | 2.89e-01 | 1.12e-03 |
LYSINE CATABOLISM | 11 | 9.81e-02 | 2.88e-01 | 3.17e-01 |
APC C CDH1 MEDIATED DEGRADATION OF CDC20 AND OTHER APC C CDH1 TARGETED PROTEINS IN LATE MITOSIS EARLY G1 | 70 | 3.22e-05 | 2.87e-01 | 7.15e-04 |
RECEPTOR TYPE TYROSINE PROTEIN PHOSPHATASES | 20 | 2.65e-02 | -2.87e-01 | 1.35e-01 |
PHASE 2 PLATEAU PHASE | 12 | 8.90e-02 | -2.84e-01 | 3.01e-01 |
MOLECULES ASSOCIATED WITH ELASTIC FIBRES | 32 | 5.55e-03 | 2.83e-01 | 4.16e-02 |
REGULATION OF RAS BY GAPS | 66 | 6.95e-05 | 2.83e-01 | 1.26e-03 |
GLUTAMATE NEUROTRANSMITTER RELEASE CYCLE | 23 | 1.88e-02 | -2.83e-01 | 1.07e-01 |
CELLULAR RESPONSE TO CHEMICAL STRESS | 151 | 2.09e-09 | 2.83e-01 | 1.12e-07 |
INCRETIN SYNTHESIS SECRETION AND INACTIVATION | 13 | 7.81e-02 | 2.82e-01 | 2.77e-01 |
PROCESSIVE SYNTHESIS ON THE LAGGING STRAND | 15 | 5.91e-02 | 2.81e-01 | 2.27e-01 |
APC C MEDIATED DEGRADATION OF CELL CYCLE PROTEINS | 81 | 1.24e-05 | 2.81e-01 | 3.43e-04 |
NUCLEOTIDE LIKE PURINERGIC RECEPTORS | 13 | 8.00e-02 | 2.80e-01 | 2.79e-01 |
RET SIGNALING | 37 | 3.18e-03 | -2.80e-01 | 2.66e-02 |
RUNX1 REGULATES TRANSCRIPTION OF GENES INVOLVED IN DIFFERENTIATION OF HSCS | 83 | 1.08e-05 | 2.79e-01 | 3.11e-04 |
INTERACTION BETWEEN L1 AND ANKYRINS | 28 | 1.06e-02 | -2.79e-01 | 7.05e-02 |
GLYCOLYSIS | 66 | 1.03e-04 | -2.77e-01 | 1.71e-03 |
ABC TRANSPORTER DISORDERS | 70 | 7.15e-05 | 2.75e-01 | 1.28e-03 |
REGULATION OF PTEN STABILITY AND ACTIVITY | 67 | 1.10e-04 | 2.73e-01 | 1.80e-03 |
NCAM1 INTERACTIONS | 41 | 2.52e-03 | -2.73e-01 | 2.13e-02 |
MITOCHONDRIAL PROTEIN IMPORT | 63 | 1.82e-04 | 2.73e-01 | 2.70e-03 |
PHASE I FUNCTIONALIZATION OF COMPOUNDS | 62 | 2.11e-04 | 2.72e-01 | 2.95e-03 |
CYCLIN A CDK2 ASSOCIATED EVENTS AT S PHASE ENTRY | 84 | 1.76e-05 | 2.71e-01 | 4.50e-04 |
BIOLOGICAL OXIDATIONS | 126 | 1.58e-07 | 2.71e-01 | 6.65e-06 |
INTERLEUKIN 7 SIGNALING | 19 | 4.13e-02 | -2.70e-01 | 1.78e-01 |
PINK1 PRKN MEDIATED MITOPHAGY | 22 | 2.83e-02 | 2.70e-01 | 1.41e-01 |
NETRIN 1 SIGNALING | 49 | 1.14e-03 | -2.69e-01 | 1.12e-02 |
FCERI MEDIATED NF KB ACTIVATION | 77 | 4.92e-05 | 2.68e-01 | 1.00e-03 |
DARPP 32 EVENTS | 23 | 2.65e-02 | -2.67e-01 | 1.35e-01 |
DEFECTIVE B4GALT7 CAUSES EDS PROGEROID TYPE | 20 | 3.93e-02 | 2.66e-01 | 1.71e-01 |
HDMS DEMETHYLATE HISTONES | 28 | 1.53e-02 | -2.65e-01 | 9.06e-02 |
DCC MEDIATED ATTRACTIVE SIGNALING | 14 | 8.69e-02 | -2.64e-01 | 2.96e-01 |
REGULATION OF RUNX2 EXPRESSION AND ACTIVITY | 69 | 1.52e-04 | 2.64e-01 | 2.35e-03 |
POTASSIUM CHANNELS | 90 | 1.55e-05 | -2.64e-01 | 4.05e-04 |
POSTMITOTIC NUCLEAR PORE COMPLEX NPC REFORMATION | 26 | 2.01e-02 | -2.63e-01 | 1.11e-01 |
PHASE II CONJUGATION OF COMPOUNDS | 61 | 3.83e-04 | 2.63e-01 | 4.55e-03 |
TNFR1 INDUCED PROAPOPTOTIC SIGNALING | 12 | 1.16e-01 | 2.62e-01 | 3.57e-01 |
PEROXISOMAL PROTEIN IMPORT | 57 | 6.20e-04 | 2.62e-01 | 6.76e-03 |
BETA CATENIN PHOSPHORYLATION CASCADE | 16 | 7.04e-02 | -2.61e-01 | 2.58e-01 |
SULFUR AMINO ACID METABOLISM | 22 | 3.43e-02 | 2.61e-01 | 1.60e-01 |
IL 6 TYPE CYTOKINE RECEPTOR LIGAND INTERACTIONS | 14 | 9.22e-02 | 2.60e-01 | 3.10e-01 |
THE ROLE OF GTSE1 IN G2 M PROGRESSION AFTER G2 CHECKPOINT | 66 | 2.68e-04 | 2.59e-01 | 3.32e-03 |
PURINE CATABOLISM | 16 | 7.26e-02 | 2.59e-01 | 2.65e-01 |
FATTY ACID METABOLISM | 145 | 7.18e-08 | 2.59e-01 | 3.25e-06 |
NUCLEOBASE CATABOLISM | 31 | 1.30e-02 | 2.58e-01 | 8.32e-02 |
SUMOYLATION OF DNA REPLICATION PROTEINS | 42 | 3.94e-03 | -2.57e-01 | 3.18e-02 |
MISMATCH REPAIR | 14 | 9.63e-02 | 2.57e-01 | 3.13e-01 |
CYTOPROTECTION BY HMOX1 | 119 | 1.37e-06 | 2.56e-01 | 4.90e-05 |
CAMK IV MEDIATED PHOSPHORYLATION OF CREB | 10 | 1.62e-01 | -2.56e-01 | 4.32e-01 |
G BETA GAMMA SIGNALLING THROUGH PI3KGAMMA | 23 | 3.50e-02 | 2.54e-01 | 1.61e-01 |
SUMOYLATION OF DNA METHYLATION PROTEINS | 16 | 8.03e-02 | -2.53e-01 | 2.79e-01 |
PEROXISOMAL LIPID METABOLISM | 26 | 2.63e-02 | 2.52e-01 | 1.35e-01 |
SUMOYLATION OF DNA DAMAGE RESPONSE AND REPAIR PROTEINS | 73 | 2.04e-04 | -2.51e-01 | 2.90e-03 |
TRAFFICKING OF AMPA RECEPTORS | 31 | 1.58e-02 | -2.50e-01 | 9.31e-02 |
PCP CE PATHWAY | 89 | 4.93e-05 | 2.49e-01 | 1.00e-03 |
SYNTHESIS SECRETION AND INACTIVATION OF GLUCAGON LIKE PEPTIDE 1 GLP 1 | 12 | 1.36e-01 | 2.49e-01 | 3.93e-01 |
TNFR1 INDUCED NFKAPPAB SIGNALING PATHWAY | 29 | 2.10e-02 | 2.48e-01 | 1.15e-01 |
TRANSCRIPTIONAL REGULATION BY RUNX3 | 92 | 4.43e-05 | 2.46e-01 | 9.32e-04 |
DISEASES OF IMMUNE SYSTEM | 24 | 3.71e-02 | 2.46e-01 | 1.66e-01 |
FOXO MEDIATED TRANSCRIPTION OF CELL DEATH GENES | 15 | 9.97e-02 | 2.46e-01 | 3.20e-01 |
AURKA ACTIVATION BY TPX2 | 71 | 3.89e-04 | -2.44e-01 | 4.58e-03 |
IRAK4 DEFICIENCY TLR2 4 | 13 | 1.30e-01 | 2.43e-01 | 3.81e-01 |
COOPERATION OF PDCL PHLP1 AND TRIC CCT IN G PROTEIN BETA FOLDING | 35 | 1.32e-02 | 2.42e-01 | 8.40e-02 |
DAG AND IP3 SIGNALING | 40 | 8.15e-03 | -2.42e-01 | 5.79e-02 |
FOXO MEDIATED TRANSCRIPTION OF CELL CYCLE GENES | 16 | 9.41e-02 | 2.42e-01 | 3.12e-01 |
METHYLATION | 12 | 1.48e-01 | 2.41e-01 | 4.11e-01 |
SYNTHESIS OF LEUKOTRIENES LT AND EOXINS EX | 12 | 1.48e-01 | 2.41e-01 | 4.12e-01 |
RNA POLYMERASE I TRANSCRIPTION TERMINATION | 31 | 2.06e-02 | 2.40e-01 | 1.13e-01 |
DOWNSTREAM SIGNALING EVENTS OF B CELL RECEPTOR BCR | 79 | 2.29e-04 | 2.40e-01 | 3.10e-03 |
CHONDROITIN SULFATE BIOSYNTHESIS | 18 | 7.87e-02 | 2.39e-01 | 2.77e-01 |
ASSEMBLY OF THE PRE REPLICATIVE COMPLEX | 64 | 9.40e-04 | 2.39e-01 | 9.47e-03 |
HEDGEHOG ON STATE | 82 | 1.83e-04 | 2.39e-01 | 2.70e-03 |
DEGRADATION OF CYSTEINE AND HOMOCYSTEINE | 12 | 1.52e-01 | 2.39e-01 | 4.18e-01 |
APOPTOSIS INDUCED DNA FRAGMENTATION | 10 | 1.92e-01 | -2.39e-01 | 4.72e-01 |
PKA MEDIATED PHOSPHORYLATION OF CREB | 19 | 7.21e-02 | -2.38e-01 | 2.64e-01 |
GLUCOSE METABOLISM | 80 | 2.33e-04 | -2.38e-01 | 3.12e-03 |
REGULATION OF TNFR1 SIGNALING | 34 | 1.63e-02 | 2.38e-01 | 9.54e-02 |
ORC1 REMOVAL FROM CHROMATIN | 67 | 7.81e-04 | 2.37e-01 | 8.20e-03 |
PRESYNAPTIC FUNCTION OF KAINATE RECEPTORS | 19 | 7.36e-02 | 2.37e-01 | 2.67e-01 |
NUCLEAR ENVELOPE BREAKDOWN | 49 | 4.27e-03 | -2.36e-01 | 3.40e-02 |
SIGNALING BY CTNNB1 PHOSPHO SITE MUTANTS | 15 | 1.14e-01 | -2.36e-01 | 3.52e-01 |
POST TRANSLATIONAL MODIFICATION SYNTHESIS OF GPI ANCHORED PROTEINS | 59 | 1.73e-03 | -2.36e-01 | 1.58e-02 |
TNFR2 NON CANONICAL NF KB PATHWAY | 80 | 2.94e-04 | 2.34e-01 | 3.60e-03 |
VIRAL MESSENGER RNA SYNTHESIS | 42 | 8.64e-03 | -2.34e-01 | 6.02e-02 |
TICAM1 DEPENDENT ACTIVATION OF IRF3 IRF7 | 12 | 1.61e-01 | 2.34e-01 | 4.32e-01 |
ELASTIC FIBRE FORMATION | 38 | 1.28e-02 | 2.33e-01 | 8.32e-02 |
DEREGULATED CDK5 TRIGGERS MULTIPLE NEURODEGENERATIVE PATHWAYS IN ALZHEIMER S DISEASE MODELS | 19 | 7.88e-02 | -2.33e-01 | 2.77e-01 |
REGULATION OF GENE EXPRESSION IN LATE STAGE BRANCHING MORPHOGENESIS PANCREATIC BUD PRECURSOR CELLS | 15 | 1.19e-01 | -2.33e-01 | 3.61e-01 |
ADENYLATE CYCLASE ACTIVATING PATHWAY | 10 | 2.03e-01 | -2.33e-01 | 4.93e-01 |
ACTIVATION OF BAD AND TRANSLOCATION TO MITOCHONDRIA | 15 | 1.19e-01 | -2.33e-01 | 3.61e-01 |
CASPASE ACTIVATION VIA DEATH RECEPTORS IN THE PRESENCE OF LIGAND | 13 | 1.47e-01 | 2.32e-01 | 4.11e-01 |
FGFR2 ALTERNATIVE SPLICING | 25 | 4.43e-02 | 2.32e-01 | 1.87e-01 |
MAPK6 MAPK4 SIGNALING | 83 | 2.54e-04 | 2.32e-01 | 3.22e-03 |
UNBLOCKING OF NMDA RECEPTORS GLUTAMATE BINDING AND ACTIVATION | 21 | 6.61e-02 | -2.32e-01 | 2.49e-01 |
COLLAGEN CHAIN TRIMERIZATION | 40 | 1.15e-02 | -2.31e-01 | 7.54e-02 |
REGULATION OF GENE EXPRESSION IN BETA CELLS | 10 | 2.08e-01 | -2.30e-01 | 4.97e-01 |
O GLYCOSYLATION OF TSR DOMAIN CONTAINING PROTEINS | 36 | 1.70e-02 | -2.30e-01 | 9.88e-02 |
SUMOYLATION OF IMMUNE RESPONSE PROTEINS | 11 | 1.87e-01 | 2.30e-01 | 4.66e-01 |
REGULATION OF TP53 ACTIVITY THROUGH ASSOCIATION WITH CO FACTORS | 12 | 1.68e-01 | -2.30e-01 | 4.40e-01 |
GLYCOSPHINGOLIPID METABOLISM | 38 | 1.46e-02 | 2.29e-01 | 8.83e-02 |
POLYMERASE SWITCHING | 14 | 1.40e-01 | 2.28e-01 | 4.02e-01 |
PROTEIN LOCALIZATION | 156 | 1.15e-06 | 2.26e-01 | 4.37e-05 |
NF KB IS ACTIVATED AND SIGNALS SURVIVAL | 13 | 1.59e-01 | 2.26e-01 | 4.31e-01 |
FORMATION OF APOPTOSOME | 10 | 2.17e-01 | 2.25e-01 | 5.11e-01 |
SEMA3A PAK DEPENDENT AXON REPULSION | 16 | 1.20e-01 | -2.25e-01 | 3.61e-01 |
RAS PROCESSING | 24 | 5.87e-02 | 2.23e-01 | 2.27e-01 |
CGMP EFFECTS | 15 | 1.35e-01 | -2.23e-01 | 3.92e-01 |
SIGNALING BY NOTCH4 | 83 | 4.63e-04 | 2.22e-01 | 5.29e-03 |
GLUCAGON TYPE LIGAND RECEPTORS | 25 | 5.44e-02 | 2.22e-01 | 2.17e-01 |
TP53 REGULATES TRANSCRIPTION OF CASPASE ACTIVATORS AND CASPASES | 11 | 2.07e-01 | -2.20e-01 | 4.97e-01 |
RECRUITMENT OF MITOTIC CENTROSOME PROTEINS AND COMPLEXES | 78 | 7.94e-04 | -2.20e-01 | 8.21e-03 |
COOPERATION OF PREFOLDIN AND TRIC CCT IN ACTIN AND TUBULIN FOLDING | 26 | 5.41e-02 | 2.18e-01 | 2.16e-01 |
NCAM SIGNALING FOR NEURITE OUT GROWTH | 61 | 3.23e-03 | -2.18e-01 | 2.68e-02 |
CLEC7A DECTIN 1 SIGNALING | 95 | 2.47e-04 | 2.18e-01 | 3.21e-03 |
DNA REPLICATION PRE INITIATION | 79 | 8.29e-04 | 2.18e-01 | 8.42e-03 |
INTERLEUKIN 1 SIGNALING | 96 | 2.49e-04 | 2.16e-01 | 3.21e-03 |
CARDIAC CONDUCTION | 109 | 9.69e-05 | -2.16e-01 | 1.63e-03 |
CA DEPENDENT EVENTS | 36 | 2.48e-02 | -2.16e-01 | 1.30e-01 |
PD 1 SIGNALING | 10 | 2.38e-01 | 2.16e-01 | 5.32e-01 |
ANTIMICROBIAL PEPTIDES | 20 | 9.61e-02 | 2.15e-01 | 3.13e-01 |
SYNTHESIS OF ACTIVE UBIQUITIN ROLES OF E1 AND E2 ENZYMES | 29 | 4.55e-02 | 2.15e-01 | 1.89e-01 |
TNFS BIND THEIR PHYSIOLOGICAL RECEPTORS | 13 | 1.82e-01 | -2.14e-01 | 4.59e-01 |
UCH PROTEINASES | 89 | 5.10e-04 | 2.13e-01 | 5.72e-03 |
APOPTOTIC FACTOR MEDIATED RESPONSE | 18 | 1.18e-01 | 2.13e-01 | 3.61e-01 |
REGULATION OF MRNA STABILITY BY PROTEINS THAT BIND AU RICH ELEMENTS | 84 | 8.08e-04 | 2.12e-01 | 8.28e-03 |
CELL EXTRACELLULAR MATRIX INTERACTIONS | 18 | 1.21e-01 | 2.11e-01 | 3.65e-01 |
LONG TERM POTENTIATION | 23 | 8.29e-02 | -2.09e-01 | 2.85e-01 |
RNA POLYMERASE I PROMOTER ESCAPE | 48 | 1.28e-02 | 2.08e-01 | 8.32e-02 |
GABA SYNTHESIS RELEASE REUPTAKE AND DEGRADATION | 19 | 1.19e-01 | -2.07e-01 | 3.61e-01 |
METABOLISM OF STEROID HORMONES | 22 | 9.32e-02 | 2.07e-01 | 3.10e-01 |
INTERLEUKIN 12 SIGNALING | 37 | 2.99e-02 | 2.06e-01 | 1.45e-01 |
PRC2 METHYLATES HISTONES AND DNA | 30 | 5.07e-02 | 2.06e-01 | 2.06e-01 |
SLBP DEPENDENT PROCESSING OF REPLICATION DEPENDENT HISTONE PRE MRNAS | 11 | 2.38e-01 | 2.06e-01 | 5.32e-01 |
UPTAKE AND ACTIONS OF BACTERIAL TOXINS | 29 | 5.61e-02 | -2.05e-01 | 2.22e-01 |
BIOSYNTHESIS OF SPECIALIZED PRORESOLVING MEDIATORS SPMS | 12 | 2.23e-01 | 2.03e-01 | 5.13e-01 |
ACTIVATION OF RAC1 | 13 | 2.05e-01 | -2.03e-01 | 4.94e-01 |
ZINC INFLUX INTO CELLS BY THE SLC39 GENE FAMILY | 10 | 2.66e-01 | 2.03e-01 | 5.63e-01 |
HYALURONAN UPTAKE AND DEGRADATION | 11 | 2.44e-01 | 2.03e-01 | 5.41e-01 |
C TYPE LECTIN RECEPTORS CLRS | 112 | 2.13e-04 | 2.03e-01 | 2.95e-03 |
DOWNREGULATION OF SMAD2 3 SMAD4 TRANSCRIPTIONAL ACTIVITY | 23 | 9.29e-02 | -2.02e-01 | 3.10e-01 |
DEGRADATION OF BETA CATENIN BY THE DESTRUCTION COMPLEX | 82 | 1.54e-03 | 2.02e-01 | 1.44e-02 |
NITRIC OXIDE STIMULATES GUANYLATE CYCLASE | 20 | 1.19e-01 | -2.01e-01 | 3.61e-01 |
SWITCHING OF ORIGINS TO A POST REPLICATIVE STATE | 86 | 1.29e-03 | 2.01e-01 | 1.25e-02 |
ABC FAMILY PROTEINS MEDIATED TRANSPORT | 94 | 7.87e-04 | 2.00e-01 | 8.20e-03 |
NEURONAL SYSTEM | 368 | 4.46e-11 | -2.00e-01 | 2.63e-09 |
DERMATAN SULFATE BIOSYNTHESIS | 11 | 2.52e-01 | 1.99e-01 | 5.51e-01 |
TCR SIGNALING | 102 | 5.06e-04 | 1.99e-01 | 5.72e-03 |
TRNA PROCESSING IN THE NUCLEUS | 56 | 9.99e-03 | -1.99e-01 | 6.77e-02 |
REGULATION OF BETA CELL DEVELOPMENT | 28 | 6.90e-02 | -1.99e-01 | 2.54e-01 |
ADVANCED GLYCOSYLATION ENDPRODUCT RECEPTOR SIGNALING | 11 | 2.54e-01 | 1.98e-01 | 5.51e-01 |
PLATELET CALCIUM HOMEOSTASIS | 26 | 8.06e-02 | -1.98e-01 | 2.79e-01 |
PROLACTIN RECEPTOR SIGNALING | 12 | 2.35e-01 | 1.98e-01 | 5.31e-01 |
BETA CATENIN INDEPENDENT WNT SIGNALING | 138 | 6.39e-05 | 1.97e-01 | 1.18e-03 |
SIGNALING BY CSF3 G CSF | 29 | 6.77e-02 | 1.96e-01 | 2.52e-01 |
RHOH GTPASE CYCLE | 37 | 3.92e-02 | 1.96e-01 | 1.71e-01 |
FORMATION OF TUBULIN FOLDING INTERMEDIATES BY CCT TRIC | 19 | 1.41e-01 | 1.95e-01 | 4.02e-01 |
ACYL CHAIN REMODELLING OF PE | 16 | 1.77e-01 | 1.95e-01 | 4.52e-01 |
REGULATION OF INNATE IMMUNE RESPONSES TO CYTOSOLIC DNA | 13 | 2.24e-01 | 1.95e-01 | 5.14e-01 |
RECRUITMENT OF NUMA TO MITOTIC CENTROSOMES | 85 | 1.92e-03 | -1.95e-01 | 1.73e-02 |
GENE AND PROTEIN EXPRESSION BY JAK STAT SIGNALING AFTER INTERLEUKIN 12 STIMULATION | 32 | 5.71e-02 | 1.94e-01 | 2.23e-01 |
GLYCOGEN SYNTHESIS | 14 | 2.08e-01 | 1.94e-01 | 4.97e-01 |
GLYCOGEN METABOLISM | 25 | 9.28e-02 | 1.94e-01 | 3.10e-01 |
TRANSCRIPTION OF E2F TARGETS UNDER NEGATIVE CONTROL BY DREAM COMPLEX | 17 | 1.68e-01 | 1.93e-01 | 4.39e-01 |
INFLAMMASOMES | 19 | 1.45e-01 | 1.93e-01 | 4.09e-01 |
REGULATION OF PLK1 ACTIVITY AT G2 M TRANSITION | 85 | 2.07e-03 | -1.93e-01 | 1.82e-02 |
INACTIVATION OF CSF3 G CSF SIGNALING | 24 | 1.01e-01 | 1.93e-01 | 3.22e-01 |
ADHERENS JUNCTIONS INTERACTIONS | 30 | 6.78e-02 | -1.93e-01 | 2.52e-01 |
EFFECTS OF PIP2 HYDROLYSIS | 27 | 8.75e-02 | -1.90e-01 | 2.97e-01 |
THROMBIN SIGNALLING THROUGH PROTEINASE ACTIVATED RECEPTORS PARS | 28 | 8.30e-02 | 1.89e-01 | 2.85e-01 |
CONSTITUTIVE SIGNALING BY OVEREXPRESSED ERBB2 | 11 | 2.77e-01 | 1.89e-01 | 5.76e-01 |
RNA POLYMERASE I TRANSCRIPTION | 68 | 6.98e-03 | 1.89e-01 | 5.01e-02 |
PI METABOLISM | 79 | 3.69e-03 | -1.89e-01 | 3.01e-02 |
KERATAN SULFATE KERATIN METABOLISM | 30 | 7.41e-02 | 1.88e-01 | 2.68e-01 |
TRANSCRIPTION OF E2F TARGETS UNDER NEGATIVE CONTROL BY P107 RBL1 AND P130 RBL2 IN COMPLEX WITH HDAC1 | 15 | 2.07e-01 | 1.88e-01 | 4.97e-01 |
COLLAGEN DEGRADATION | 51 | 2.00e-02 | -1.88e-01 | 1.11e-01 |
FOXO MEDIATED TRANSCRIPTION OF OXIDATIVE STRESS METABOLIC AND NEURONAL GENES | 24 | 1.11e-01 | 1.88e-01 | 3.46e-01 |
NEGATIVE REGULATION OF TCF DEPENDENT SIGNALING BY WNT LIGAND ANTAGONISTS | 11 | 2.83e-01 | 1.87e-01 | 5.79e-01 |
TRANSCRIPTIONAL REGULATION BY RUNX2 | 109 | 7.49e-04 | 1.87e-01 | 7.95e-03 |
SYNAPTIC ADHESION LIKE MOLECULES | 21 | 1.41e-01 | -1.86e-01 | 4.02e-01 |
CYTOCHROME C MEDIATED APOPTOTIC RESPONSE | 12 | 2.69e-01 | 1.84e-01 | 5.66e-01 |
DNA METHYLATION | 21 | 1.45e-01 | 1.84e-01 | 4.09e-01 |
ACYL CHAIN REMODELLING OF PG | 10 | 3.22e-01 | 1.81e-01 | 6.15e-01 |
ERK MAPK TARGETS | 22 | 1.45e-01 | -1.80e-01 | 4.09e-01 |
REGULATION OF FOXO TRANSCRIPTIONAL ACTIVITY BY ACETYLATION | 10 | 3.25e-01 | 1.80e-01 | 6.15e-01 |
TRAF6 MEDIATED NF KB ACTIVATION | 22 | 1.46e-01 | 1.79e-01 | 4.09e-01 |
FRS MEDIATED FGFR4 SIGNALING | 14 | 2.46e-01 | 1.79e-01 | 5.43e-01 |
INTERLEUKIN 1 FAMILY SIGNALING | 122 | 6.44e-04 | 1.79e-01 | 6.96e-03 |
TRANSCRIPTIONAL REGULATION OF GRANULOPOIESIS | 45 | 3.80e-02 | 1.79e-01 | 1.69e-01 |
LOSS OF FUNCTION OF MECP2 IN RETT SYNDROME | 13 | 2.64e-01 | -1.79e-01 | 5.62e-01 |
ANTIVIRAL MECHANISM BY IFN STIMULATED GENES | 73 | 8.28e-03 | -1.79e-01 | 5.84e-02 |
SEMA4D IN SEMAPHORIN SIGNALING | 24 | 1.30e-01 | 1.79e-01 | 3.81e-01 |
TNF RECEPTOR SUPERFAMILY TNFSF MEMBERS MEDIATING NON CANONICAL NF KB PATHWAY | 12 | 2.85e-01 | 1.78e-01 | 5.79e-01 |
ACTIVATED NTRK2 SIGNALS THROUGH FRS2 AND FRS3 | 10 | 3.29e-01 | 1.78e-01 | 6.16e-01 |
METABOLISM OF NITRIC OXIDE NOS3 ACTIVATION AND REGULATION | 15 | 2.33e-01 | 1.78e-01 | 5.28e-01 |
MITOCHONDRIAL TRNA AMINOACYLATION | 21 | 1.60e-01 | 1.77e-01 | 4.31e-01 |
PREGNENOLONE BIOSYNTHESIS | 12 | 2.89e-01 | 1.77e-01 | 5.85e-01 |
BBSOME MEDIATED CARGO TARGETING TO CILIUM | 23 | 1.44e-01 | 1.76e-01 | 4.08e-01 |
INTERFERON ALPHA BETA SIGNALING | 55 | 2.40e-02 | 1.76e-01 | 1.26e-01 |
ERKS ARE INACTIVATED | 13 | 2.72e-01 | -1.76e-01 | 5.71e-01 |
TAK1 ACTIVATES NFKB BY PHOSPHORYLATION AND ACTIVATION OF IKKS COMPLEX | 30 | 9.56e-02 | 1.76e-01 | 3.13e-01 |
GOLGI CISTERNAE PERICENTRIOLAR STACK REORGANIZATION | 12 | 2.93e-01 | -1.75e-01 | 5.89e-01 |
ANCHORING FIBRIL FORMATION | 14 | 2.56e-01 | -1.75e-01 | 5.51e-01 |
G PROTEIN MEDIATED EVENTS | 52 | 2.91e-02 | -1.75e-01 | 1.43e-01 |
SHC MEDIATED CASCADE FGFR4 | 12 | 2.94e-01 | 1.75e-01 | 5.90e-01 |
NEUTROPHIL DEGRANULATION | 389 | 4.83e-09 | 1.73e-01 | 2.37e-07 |
TFAP2 AP 2 FAMILY REGULATES TRANSCRIPTION OF GROWTH FACTORS AND THEIR RECEPTORS | 10 | 3.43e-01 | -1.73e-01 | 6.27e-01 |
CELL CELL JUNCTION ORGANIZATION | 49 | 3.62e-02 | -1.73e-01 | 1.63e-01 |
JNK C JUN KINASES PHOSPHORYLATION AND ACTIVATION MEDIATED BY ACTIVATED HUMAN TAK1 | 22 | 1.61e-01 | -1.73e-01 | 4.32e-01 |
MATURATION OF SARS COV 2 SPIKE PROTEIN | 29 | 1.08e-01 | 1.73e-01 | 3.39e-01 |
SIGNALING BY NTRKS | 130 | 7.23e-04 | -1.72e-01 | 7.74e-03 |
PLASMA LIPOPROTEIN REMODELING | 17 | 2.21e-01 | -1.72e-01 | 5.13e-01 |
DEFECTS IN VITAMIN AND COFACTOR METABOLISM | 21 | 1.74e-01 | 1.71e-01 | 4.45e-01 |
PLASMA LIPOPROTEIN ASSEMBLY | 13 | 2.85e-01 | 1.71e-01 | 5.79e-01 |
B WICH COMPLEX POSITIVELY REGULATES RRNA EXPRESSION | 48 | 4.07e-02 | 1.71e-01 | 1.76e-01 |
CD28 DEPENDENT VAV1 PATHWAY | 11 | 3.29e-01 | 1.70e-01 | 6.16e-01 |
G1 S SPECIFIC TRANSCRIPTION | 26 | 1.36e-01 | 1.69e-01 | 3.94e-01 |
SYNTHESIS OF PIPS AT THE PLASMA MEMBRANE | 52 | 3.57e-02 | -1.68e-01 | 1.63e-01 |
ION HOMEOSTASIS | 49 | 4.17e-02 | -1.68e-01 | 1.78e-01 |
TRANSMISSION ACROSS CHEMICAL SYNAPSES | 240 | 7.84e-06 | -1.68e-01 | 2.31e-04 |
ASSOCIATION OF TRIC CCT WITH TARGET PROTEINS DURING BIOSYNTHESIS | 38 | 7.45e-02 | 1.67e-01 | 2.68e-01 |
DISEASES OF CARBOHYDRATE METABOLISM | 28 | 1.26e-01 | 1.67e-01 | 3.75e-01 |
NEGATIVE REGULATION OF NMDA RECEPTOR MEDIATED NEURONAL TRANSMISSION | 21 | 1.85e-01 | -1.67e-01 | 4.64e-01 |
ADRENALINE NORADRENALINE INHIBITS INSULIN SECRETION | 26 | 1.41e-01 | 1.67e-01 | 4.02e-01 |
CYTOCHROME P450 ARRANGED BY SUBSTRATE TYPE | 33 | 9.72e-02 | 1.67e-01 | 3.15e-01 |
SPHINGOLIPID METABOLISM | 80 | 9.99e-03 | 1.67e-01 | 6.77e-02 |
SIGNALING BY CYTOSOLIC FGFR1 FUSION MUTANTS | 18 | 2.22e-01 | -1.66e-01 | 5.13e-01 |
ADENYLATE CYCLASE INHIBITORY PATHWAY | 13 | 2.99e-01 | -1.66e-01 | 5.94e-01 |
ANCHORING OF THE BASAL BODY TO THE PLASMA MEMBRANE | 96 | 4.89e-03 | -1.66e-01 | 3.81e-02 |
INTERCONVERSION OF NUCLEOTIDE DI AND TRIPHOSPHATES | 29 | 1.21e-01 | 1.66e-01 | 3.65e-01 |
AMYLOID FIBER FORMATION | 59 | 2.73e-02 | 1.66e-01 | 1.37e-01 |
PYRIMIDINE CATABOLISM | 10 | 3.63e-01 | 1.66e-01 | 6.44e-01 |
NEUROTRANSMITTER RECEPTORS AND POSTSYNAPTIC SIGNAL TRANSMISSION | 179 | 1.33e-04 | -1.66e-01 | 2.12e-03 |
E3 UBIQUITIN LIGASES UBIQUITINATE TARGET PROTEINS | 51 | 4.15e-02 | 1.65e-01 | 1.78e-01 |
NOTCH4 ACTIVATION AND TRANSMISSION OF SIGNAL TO THE NUCLEUS | 12 | 3.24e-01 | 1.64e-01 | 6.15e-01 |
KSRP KHSRP BINDS AND DESTABILIZES MRNA | 16 | 2.55e-01 | -1.64e-01 | 5.51e-01 |
NUCLEAR EVENTS KINASE AND TRANSCRIPTION FACTOR ACTIVATION | 59 | 2.98e-02 | -1.64e-01 | 1.45e-01 |
APC CDC20 MEDIATED DEGRADATION OF NEK2A | 24 | 1.66e-01 | 1.63e-01 | 4.37e-01 |
SHC1 EVENTS IN EGFR SIGNALING | 11 | 3.49e-01 | 1.63e-01 | 6.30e-01 |
KERATAN SULFATE BIOSYNTHESIS | 24 | 1.67e-01 | 1.63e-01 | 4.38e-01 |
DISEASES OF DNA REPAIR | 11 | 3.50e-01 | -1.63e-01 | 6.32e-01 |
SNRNP ASSEMBLY | 51 | 4.51e-02 | -1.62e-01 | 1.89e-01 |
REGULATION OF KIT SIGNALING | 16 | 2.62e-01 | -1.62e-01 | 5.58e-01 |
RECEPTOR MEDIATED MITOPHAGY | 11 | 3.52e-01 | -1.62e-01 | 6.34e-01 |
DEFECTS IN COBALAMIN B12 METABOLISM | 13 | 3.15e-01 | 1.61e-01 | 6.11e-01 |
RAP1 SIGNALLING | 15 | 2.81e-01 | -1.61e-01 | 5.79e-01 |
DNA REPLICATION | 121 | 2.35e-03 | 1.60e-01 | 2.05e-02 |
PROTEIN UBIQUITINATION | 70 | 2.14e-02 | 1.59e-01 | 1.16e-01 |
NRAGE SIGNALS DEATH THROUGH JNK | 55 | 4.18e-02 | -1.59e-01 | 1.78e-01 |
FRS MEDIATED FGFR3 SIGNALING | 15 | 2.88e-01 | 1.58e-01 | 5.85e-01 |
SIGNALING BY PDGFR IN DISEASE | 20 | 2.21e-01 | -1.58e-01 | 5.13e-01 |
ROLE OF LAT2 NTAL LAB ON CALCIUM MOBILIZATION | 14 | 3.06e-01 | -1.58e-01 | 6.04e-01 |
SIGNALING BY THE B CELL RECEPTOR BCR | 104 | 5.40e-03 | 1.58e-01 | 4.10e-02 |
FGFR1 MUTANT RECEPTOR ACTIVATION | 26 | 1.64e-01 | -1.58e-01 | 4.36e-01 |
RHO GTPASES ACTIVATE KTN1 | 11 | 3.66e-01 | 1.57e-01 | 6.45e-01 |
SYNTHESIS SECRETION AND DEACYLATION OF GHRELIN | 14 | 3.09e-01 | 1.57e-01 | 6.05e-01 |
RESPONSE TO ELEVATED PLATELET CYTOSOLIC CA2 | 106 | 5.32e-03 | 1.57e-01 | 4.07e-02 |
RETROGRADE TRANSPORT AT THE TRANS GOLGI NETWORK | 48 | 6.08e-02 | -1.56e-01 | 2.32e-01 |
MITOTIC G1 PHASE AND G1 S TRANSITION | 140 | 1.40e-03 | 1.56e-01 | 1.33e-02 |
ACTIVATION OF KAINATE RECEPTORS UPON GLUTAMATE BINDING | 28 | 1.52e-01 | 1.56e-01 | 4.18e-01 |
GAP FILLING DNA REPAIR SYNTHESIS AND LIGATION IN GG NER | 24 | 1.85e-01 | 1.56e-01 | 4.64e-01 |
POSITIVE EPIGENETIC REGULATION OF RRNA EXPRESSION | 63 | 3.21e-02 | 1.56e-01 | 1.51e-01 |
MITOTIC PROPHASE | 95 | 8.56e-03 | -1.56e-01 | 6.00e-02 |
TRAF6 MEDIATED INDUCTION OF TAK1 COMPLEX WITHIN TLR4 COMPLEX | 15 | 2.96e-01 | 1.56e-01 | 5.90e-01 |
RNA POLYMERASE I TRANSCRIPTION INITIATION | 47 | 6.50e-02 | 1.56e-01 | 2.45e-01 |
MRNA SPLICING MINOR PATHWAY | 52 | 5.34e-02 | 1.55e-01 | 2.14e-01 |
SCAVENGING BY CLASS A RECEPTORS | 14 | 3.17e-01 | 1.55e-01 | 6.13e-01 |
DEPOSITION OF NEW CENPA CONTAINING NUCLEOSOMES AT THE CENTROMERE | 39 | 9.54e-02 | 1.54e-01 | 3.13e-01 |
ERBB2 REGULATES CELL MOTILITY | 14 | 3.18e-01 | 1.54e-01 | 6.13e-01 |
INTERLEUKIN 17 SIGNALING | 67 | 2.92e-02 | -1.54e-01 | 1.43e-01 |
NEGATIVE EPIGENETIC REGULATION OF RRNA EXPRESSION | 66 | 3.05e-02 | 1.54e-01 | 1.47e-01 |
PROLONGED ERK ACTIVATION EVENTS | 14 | 3.19e-01 | -1.54e-01 | 6.14e-01 |
INTERLEUKIN 12 FAMILY SIGNALING | 44 | 8.00e-02 | 1.53e-01 | 2.79e-01 |
INSULIN PROCESSING | 24 | 1.96e-01 | -1.52e-01 | 4.80e-01 |
SEMA4D INDUCED CELL MIGRATION AND GROWTH CONE COLLAPSE | 20 | 2.39e-01 | 1.52e-01 | 5.32e-01 |
GLYCOGEN STORAGE DISEASES | 12 | 3.62e-01 | 1.52e-01 | 6.42e-01 |
ATF6 ATF6 ALPHA ACTIVATES CHAPERONES | 12 | 3.62e-01 | 1.52e-01 | 6.42e-01 |
DAP12 INTERACTIONS | 31 | 1.43e-01 | 1.52e-01 | 4.08e-01 |
RND2 GTPASE CYCLE | 38 | 1.05e-01 | -1.52e-01 | 3.32e-01 |
SHC MEDIATED CASCADE FGFR3 | 13 | 3.45e-01 | 1.51e-01 | 6.28e-01 |
FGFR2 LIGAND BINDING AND ACTIVATION | 12 | 3.65e-01 | 1.51e-01 | 6.45e-01 |
GLYCOGEN BREAKDOWN GLYCOGENOLYSIS | 14 | 3.28e-01 | 1.51e-01 | 6.16e-01 |
NEUROTRANSMITTER RELEASE CYCLE | 49 | 6.81e-02 | -1.51e-01 | 2.52e-01 |
CONVERSION FROM APC C CDC20 TO APC C CDH1 IN LATE ANAPHASE | 19 | 2.57e-01 | 1.50e-01 | 5.52e-01 |
PROTEIN FOLDING | 89 | 1.45e-02 | 1.50e-01 | 8.82e-02 |
IRAK1 RECRUITS IKK COMPLEX | 14 | 3.32e-01 | 1.50e-01 | 6.19e-01 |
DEFECTIVE EXT2 CAUSES EXOSTOSES 2 | 14 | 3.34e-01 | 1.49e-01 | 6.20e-01 |
REPRESSION OF WNT TARGET GENES | 14 | 3.37e-01 | 1.48e-01 | 6.21e-01 |
NUCLEOBASE BIOSYNTHESIS | 15 | 3.22e-01 | -1.48e-01 | 6.15e-01 |
REGULATION OF HSF1 MEDIATED HEAT SHOCK RESPONSE | 75 | 2.71e-02 | -1.48e-01 | 1.37e-01 |
RAS ACTIVATION UPON CA2 INFLUX THROUGH NMDA RECEPTOR | 20 | 2.54e-01 | -1.47e-01 | 5.51e-01 |
HYALURONAN METABOLISM | 15 | 3.24e-01 | 1.47e-01 | 6.15e-01 |
REGULATION OF MECP2 EXPRESSION AND ACTIVITY | 30 | 1.64e-01 | -1.47e-01 | 4.36e-01 |
STAT5 ACTIVATION DOWNSTREAM OF FLT3 ITD MUTANTS | 10 | 4.22e-01 | -1.47e-01 | 6.97e-01 |
CELLULAR RESPONSES TO EXTERNAL STIMULI | 603 | 1.01e-09 | 1.46e-01 | 5.69e-08 |
TRP CHANNELS | 18 | 2.84e-01 | -1.46e-01 | 5.79e-01 |
OLFACTORY SIGNALING PATHWAY | 27 | 1.90e-01 | -1.46e-01 | 4.70e-01 |
SIGNALING BY FGFR2 | 63 | 4.54e-02 | 1.46e-01 | 1.89e-01 |
S PHASE | 153 | 1.90e-03 | 1.46e-01 | 1.73e-02 |
INTERLEUKIN 35 SIGNALLING | 10 | 4.26e-01 | -1.45e-01 | 6.99e-01 |
RHOU GTPASE CYCLE | 33 | 1.49e-01 | -1.45e-01 | 4.12e-01 |
CLEC7A DECTIN 1 INDUCES NFAT ACTIVATION | 11 | 4.05e-01 | -1.45e-01 | 6.82e-01 |
NGF STIMULATED TRANSCRIPTION | 37 | 1.27e-01 | -1.45e-01 | 3.78e-01 |
SLC TRANSPORTER DISORDERS | 76 | 2.91e-02 | -1.45e-01 | 1.43e-01 |
SIGNALING BY PDGF | 57 | 5.89e-02 | -1.45e-01 | 2.27e-01 |
CREB1 PHOSPHORYLATION THROUGH NMDA RECEPTOR MEDIATED ACTIVATION OF RAS SIGNALING | 28 | 1.85e-01 | -1.45e-01 | 4.64e-01 |
SUMOYLATION OF INTRACELLULAR RECEPTORS | 27 | 1.93e-01 | 1.45e-01 | 4.75e-01 |
INTERLEUKIN 2 FAMILY SIGNALING | 33 | 1.51e-01 | -1.45e-01 | 4.17e-01 |
FCERI MEDIATED MAPK ACTIVATION | 28 | 1.87e-01 | -1.44e-01 | 4.66e-01 |
G PROTEIN BETA GAMMA SIGNALLING | 30 | 1.72e-01 | 1.44e-01 | 4.43e-01 |
SYNTHESIS OF PC | 26 | 2.04e-01 | 1.44e-01 | 4.93e-01 |
HEME SIGNALING | 45 | 9.54e-02 | -1.44e-01 | 3.13e-01 |
NEGATIVE REGULATION OF MAPK PATHWAY | 42 | 1.07e-01 | -1.44e-01 | 3.38e-01 |
INTRINSIC PATHWAY OF FIBRIN CLOT FORMATION | 13 | 3.71e-01 | 1.43e-01 | 6.50e-01 |
BILE ACID AND BILE SALT METABOLISM | 24 | 2.26e-01 | 1.43e-01 | 5.16e-01 |
TNF SIGNALING | 43 | 1.05e-01 | 1.43e-01 | 3.32e-01 |
MITOTIC PROMETAPHASE | 178 | 1.05e-03 | -1.43e-01 | 1.04e-02 |
REGULATION OF IFNG SIGNALING | 13 | 3.76e-01 | 1.42e-01 | 6.54e-01 |
RND1 GTPASE CYCLE | 38 | 1.32e-01 | -1.41e-01 | 3.83e-01 |
LAGGING STRAND SYNTHESIS | 20 | 2.75e-01 | 1.41e-01 | 5.73e-01 |
ACTIVATION OF NMDA RECEPTORS AND POSTSYNAPTIC EVENTS | 83 | 2.75e-02 | -1.40e-01 | 1.38e-01 |
ASSEMBLY OF COLLAGEN FIBRILS AND OTHER MULTIMERIC STRUCTURES | 52 | 8.09e-02 | -1.40e-01 | 2.79e-01 |
REGULATION OF INSULIN LIKE GROWTH FACTOR IGF TRANSPORT AND UPTAKE BY INSULIN LIKE GROWTH FACTOR BINDING PROTEINS IGFBPS | 91 | 2.14e-02 | 1.40e-01 | 1.16e-01 |
PROTEIN PROTEIN INTERACTIONS AT SYNAPSES | 85 | 2.64e-02 | -1.39e-01 | 1.35e-01 |
SIGNALING BY FGFR2 IIIA TM | 19 | 2.94e-01 | 1.39e-01 | 5.90e-01 |
OTHER SEMAPHORIN INTERACTIONS | 19 | 2.97e-01 | -1.38e-01 | 5.90e-01 |
HOMOLOGOUS DNA PAIRING AND STRAND EXCHANGE | 40 | 1.31e-01 | -1.38e-01 | 3.82e-01 |
INOSITOL PHOSPHATE METABOLISM | 47 | 1.02e-01 | -1.38e-01 | 3.24e-01 |
ERCC6 CSB AND EHMT2 G9A POSITIVELY REGULATE RRNA EXPRESSION | 33 | 1.71e-01 | 1.38e-01 | 4.43e-01 |
PROCESSING OF CAPPED INTRONLESS PRE MRNA | 28 | 2.07e-01 | -1.38e-01 | 4.97e-01 |
P75NTR SIGNALS VIA NF KB | 16 | 3.42e-01 | 1.37e-01 | 6.27e-01 |
SEMA3A PLEXIN REPULSION SIGNALING BY INHIBITING INTEGRIN ADHESION | 14 | 3.74e-01 | -1.37e-01 | 6.52e-01 |
POLYMERASE SWITCHING ON THE C STRAND OF THE TELOMERE | 25 | 2.38e-01 | 1.36e-01 | 5.32e-01 |
CHROMOSOME MAINTENANCE | 103 | 1.71e-02 | 1.36e-01 | 9.89e-02 |
ERYTHROPOIETIN ACTIVATES RAS | 13 | 3.97e-01 | 1.36e-01 | 6.72e-01 |
DEGRADATION OF THE EXTRACELLULAR MATRIX | 108 | 1.53e-02 | -1.35e-01 | 9.06e-02 |
HEDGEHOG OFF STATE | 106 | 1.64e-02 | 1.35e-01 | 9.54e-02 |
NF KB ACTIVATION THROUGH FADD RIP 1 PATHWAY MEDIATED BY CASPASE 8 AND 10 | 11 | 4.39e-01 | 1.35e-01 | 7.11e-01 |
ABC TRANSPORTERS IN LIPID HOMEOSTASIS | 14 | 3.82e-01 | -1.35e-01 | 6.59e-01 |
CYTOSOLIC TRNA AMINOACYLATION | 24 | 2.54e-01 | -1.34e-01 | 5.51e-01 |
METABOLISM OF FAT SOLUBLE VITAMINS | 35 | 1.71e-01 | 1.34e-01 | 4.43e-01 |
GP1B IX V ACTIVATION SIGNALLING | 10 | 4.65e-01 | -1.33e-01 | 7.22e-01 |
RHOV GTPASE CYCLE | 32 | 1.91e-01 | -1.33e-01 | 4.72e-01 |
EPIGENETIC REGULATION OF GENE EXPRESSION | 104 | 1.92e-02 | 1.33e-01 | 1.08e-01 |
MITOPHAGY | 29 | 2.16e-01 | 1.33e-01 | 5.11e-01 |
INSERTION OF TAIL ANCHORED PROTEINS INTO THE ENDOPLASMIC RETICULUM MEMBRANE | 22 | 2.81e-01 | 1.33e-01 | 5.79e-01 |
NUCLEAR SIGNALING BY ERBB4 | 31 | 2.01e-01 | 1.33e-01 | 4.91e-01 |
CHONDROITIN SULFATE DERMATAN SULFATE METABOLISM | 48 | 1.12e-01 | 1.33e-01 | 3.48e-01 |
CYTOSOLIC SENSORS OF PATHOGEN ASSOCIATED DNA | 59 | 7.89e-02 | 1.32e-01 | 2.77e-01 |
POLO LIKE KINASE MEDIATED EVENTS | 14 | 3.94e-01 | 1.32e-01 | 6.72e-01 |
NOTCH2 ACTIVATION AND TRANSMISSION OF SIGNAL TO THE NUCLEUS | 23 | 2.74e-01 | 1.32e-01 | 5.73e-01 |
P75NTR RECRUITS SIGNALLING COMPLEXES | 13 | 4.12e-01 | 1.32e-01 | 6.88e-01 |
HDR THROUGH SINGLE STRAND ANNEALING SSA | 36 | 1.73e-01 | -1.31e-01 | 4.43e-01 |
ERYTHROPOIETIN ACTIVATES PHOSPHOINOSITIDE 3 KINASE PI3K | 11 | 4.51e-01 | -1.31e-01 | 7.18e-01 |
TRIGLYCERIDE CATABOLISM | 14 | 3.96e-01 | 1.31e-01 | 6.72e-01 |
HATS ACETYLATE HISTONES | 93 | 2.92e-02 | -1.31e-01 | 1.43e-01 |
NOTCH3 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 23 | 2.78e-01 | -1.31e-01 | 5.76e-01 |
EPHRIN SIGNALING | 19 | 3.26e-01 | -1.30e-01 | 6.15e-01 |
IRE1ALPHA ACTIVATES CHAPERONES | 50 | 1.11e-01 | 1.30e-01 | 3.46e-01 |
PECAM1 INTERACTIONS | 12 | 4.36e-01 | 1.30e-01 | 7.07e-01 |
BUTYRATE RESPONSE FACTOR 1 BRF1 BINDS AND DESTABILIZES MRNA | 16 | 3.69e-01 | -1.30e-01 | 6.46e-01 |
SYNTHESIS OF IP3 AND IP4 IN THE CYTOSOL | 26 | 2.52e-01 | -1.30e-01 | 5.51e-01 |
A TETRASACCHARIDE LINKER SEQUENCE IS REQUIRED FOR GAG SYNTHESIS | 26 | 2.53e-01 | 1.30e-01 | 5.51e-01 |
GAMMA CARBOXYLATION HYPUSINE FORMATION AND ARYLSULFATASE ACTIVATION | 30 | 2.21e-01 | 1.29e-01 | 5.13e-01 |
N GLYCAN TRIMMING IN THE ER AND CALNEXIN CALRETICULIN CYCLE | 35 | 1.87e-01 | 1.29e-01 | 4.66e-01 |
SIRT1 NEGATIVELY REGULATES RRNA EXPRESSION | 25 | 2.65e-01 | 1.29e-01 | 5.62e-01 |
TELOMERE EXTENSION BY TELOMERASE | 22 | 2.96e-01 | 1.29e-01 | 5.90e-01 |
METABOLISM OF NUCLEOTIDES | 92 | 3.36e-02 | 1.28e-01 | 1.57e-01 |
DEACTIVATION OF THE BETA CATENIN TRANSACTIVATING COMPLEX | 41 | 1.56e-01 | 1.28e-01 | 4.24e-01 |
CRMPS IN SEMA3A SIGNALING | 16 | 3.76e-01 | -1.28e-01 | 6.54e-01 |
G0 AND EARLY G1 | 24 | 2.81e-01 | 1.27e-01 | 5.79e-01 |
TELOMERE MAINTENANCE | 79 | 5.13e-02 | 1.27e-01 | 2.08e-01 |
FOXO MEDIATED TRANSCRIPTION | 58 | 9.54e-02 | 1.27e-01 | 3.13e-01 |
WNT5A DEPENDENT INTERNALIZATION OF FZD4 | 15 | 3.96e-01 | -1.27e-01 | 6.72e-01 |
EGR2 AND SOX10 MEDIATED INITIATION OF SCHWANN CELL MYELINATION | 27 | 2.56e-01 | 1.26e-01 | 5.51e-01 |
SIGNALING BY FGFR1 IN DISEASE | 33 | 2.09e-01 | -1.26e-01 | 4.98e-01 |
CARBOXYTERMINAL POST TRANSLATIONAL MODIFICATIONS OF TUBULIN | 36 | 1.90e-01 | -1.26e-01 | 4.70e-01 |
RHO GTPASES ACTIVATE ROCKS | 19 | 3.41e-01 | 1.26e-01 | 6.27e-01 |
LATE ENDOSOMAL MICROAUTOPHAGY | 32 | 2.19e-01 | 1.26e-01 | 5.12e-01 |
METABOLISM OF COFACTORS | 19 | 3.45e-01 | 1.25e-01 | 6.28e-01 |
TP53 REGULATES TRANSCRIPTION OF ADDITIONAL CELL CYCLE GENES WHOSE EXACT ROLE IN THE P53 PATHWAY REMAIN UNCERTAIN | 20 | 3.33e-01 | -1.25e-01 | 6.19e-01 |
DISEASES OF METABOLISM | 198 | 2.44e-03 | 1.25e-01 | 2.09e-02 |
FERTILIZATION | 13 | 4.36e-01 | -1.25e-01 | 7.07e-01 |
PEXOPHAGY | 11 | 4.73e-01 | 1.25e-01 | 7.28e-01 |
ONCOGENE INDUCED SENESCENCE | 32 | 2.22e-01 | 1.25e-01 | 5.13e-01 |
ASSEMBLY OF THE HIV VIRION | 16 | 3.88e-01 | 1.25e-01 | 6.67e-01 |
GLYOXYLATE METABOLISM AND GLYCINE DEGRADATION | 25 | 2.82e-01 | 1.24e-01 | 5.79e-01 |
MUSCLE CONTRACTION | 162 | 6.53e-03 | -1.24e-01 | 4.78e-02 |
TP53 REGULATES TRANSCRIPTION OF GENES INVOLVED IN CYTOCHROME C RELEASE | 19 | 3.51e-01 | -1.24e-01 | 6.32e-01 |
SYNTHESIS OF GLYCOSYLPHOSPHATIDYLINOSITOL GPI | 18 | 3.68e-01 | -1.22e-01 | 6.46e-01 |
INHIBITION OF THE PROTEOLYTIC ACTIVITY OF APC C REQUIRED FOR THE ONSET OF ANAPHASE BY MITOTIC SPINDLE CHECKPOINT COMPONENTS | 19 | 3.56e-01 | 1.22e-01 | 6.36e-01 |
DNA DAMAGE TELOMERE STRESS INDUCED SENESCENCE | 45 | 1.56e-01 | -1.22e-01 | 4.24e-01 |
GOLGI ASSOCIATED VESICLE BIOGENESIS | 54 | 1.23e-01 | -1.21e-01 | 3.70e-01 |
INTRAFLAGELLAR TRANSPORT | 52 | 1.31e-01 | 1.21e-01 | 3.83e-01 |
ORGANIC CATION ANION ZWITTERION TRANSPORT | 12 | 4.70e-01 | 1.20e-01 | 7.25e-01 |
RUNX3 REGULATES NOTCH SIGNALING | 13 | 4.53e-01 | -1.20e-01 | 7.20e-01 |
O LINKED GLYCOSYLATION | 84 | 5.71e-02 | -1.20e-01 | 2.23e-01 |
GENE SILENCING BY RNA | 83 | 5.86e-02 | -1.20e-01 | 2.27e-01 |
GAP JUNCTION DEGRADATION | 11 | 4.92e-01 | 1.20e-01 | 7.47e-01 |
PRE NOTCH PROCESSING IN GOLGI | 17 | 3.93e-01 | 1.20e-01 | 6.72e-01 |
APC C CDC20 MEDIATED DEGRADATION OF CYCLIN B | 21 | 3.45e-01 | 1.19e-01 | 6.28e-01 |
MITOCHONDRIAL IRON SULFUR CLUSTER BIOGENESIS | 13 | 4.58e-01 | 1.19e-01 | 7.21e-01 |
INFECTIOUS DISEASE | 733 | 5.43e-08 | 1.18e-01 | 2.56e-06 |
P75 NTR RECEPTOR MEDIATED SIGNALLING | 94 | 4.74e-02 | -1.18e-01 | 1.95e-01 |
TCF DEPENDENT SIGNALING IN RESPONSE TO WNT | 178 | 6.68e-03 | 1.18e-01 | 4.86e-02 |
TRANSPORT OF CONNEXONS TO THE PLASMA MEMBRANE | 13 | 4.62e-01 | 1.18e-01 | 7.22e-01 |
PURINERGIC SIGNALING IN LEISHMANIASIS INFECTION | 23 | 3.29e-01 | 1.18e-01 | 6.16e-01 |
BASIGIN INTERACTIONS | 22 | 3.42e-01 | -1.17e-01 | 6.27e-01 |
EARLY PHASE OF HIV LIFE CYCLE | 14 | 4.49e-01 | -1.17e-01 | 7.16e-01 |
INTERLEUKIN 4 AND INTERLEUKIN 13 SIGNALING | 77 | 7.64e-02 | 1.17e-01 | 2.74e-01 |
ABERRANT REGULATION OF MITOTIC EXIT IN CANCER DUE TO RB1 DEFECTS | 19 | 3.78e-01 | 1.17e-01 | 6.56e-01 |
CELLULAR RESPONSE TO HEAT STRESS | 94 | 5.04e-02 | -1.17e-01 | 2.06e-01 |
VITAMIN B5 PANTOTHENATE METABOLISM | 15 | 4.33e-01 | -1.17e-01 | 7.05e-01 |
METABOLISM OF RNA | 644 | 5.24e-07 | 1.16e-01 | 2.06e-05 |
SIGNALING BY FGFR | 74 | 8.37e-02 | 1.16e-01 | 2.87e-01 |
SENESCENCE ASSOCIATED SECRETORY PHENOTYPE SASP | 64 | 1.09e-01 | 1.16e-01 | 3.41e-01 |
DOWNSTREAM SIGNAL TRANSDUCTION | 29 | 2.83e-01 | -1.15e-01 | 5.79e-01 |
BIOTIN TRANSPORT AND METABOLISM | 11 | 5.09e-01 | 1.15e-01 | 7.60e-01 |
SIGNAL REGULATORY PROTEIN FAMILY INTERACTIONS | 11 | 5.09e-01 | 1.15e-01 | 7.60e-01 |
GLUCAGON LIKE PEPTIDE 1 GLP1 REGULATES INSULIN SECRETION | 38 | 2.23e-01 | 1.14e-01 | 5.13e-01 |
RUNX1 INTERACTS WITH CO FACTORS WHOSE PRECISE EFFECT ON RUNX1 TARGETS IS NOT KNOWN | 37 | 2.31e-01 | -1.14e-01 | 5.26e-01 |
RETROGRADE NEUROTROPHIN SIGNALLING | 14 | 4.63e-01 | -1.13e-01 | 7.22e-01 |
CELL DEATH SIGNALLING VIA NRAGE NRIF AND NADE | 73 | 9.57e-02 | -1.13e-01 | 3.13e-01 |
FGFR2 MUTANT RECEPTOR ACTIVATION | 26 | 3.23e-01 | 1.12e-01 | 6.15e-01 |
SIGNALING BY FLT3 FUSION PROTEINS | 19 | 3.98e-01 | -1.12e-01 | 6.72e-01 |
INNATE IMMUNE SYSTEM | 784 | 1.33e-07 | 1.11e-01 | 5.80e-06 |
BUDDING AND MATURATION OF HIV VIRION | 27 | 3.19e-01 | 1.11e-01 | 6.14e-01 |
L1CAM INTERACTIONS | 109 | 4.60e-02 | -1.11e-01 | 1.91e-01 |
PURINE RIBONUCLEOSIDE MONOPHOSPHATE BIOSYNTHESIS | 12 | 5.09e-01 | -1.10e-01 | 7.60e-01 |
RHOBTB GTPASE CYCLE | 35 | 2.60e-01 | 1.10e-01 | 5.55e-01 |
INTRA GOLGI TRAFFIC | 43 | 2.12e-01 | -1.10e-01 | 5.04e-01 |
SPHINGOLIPID DE NOVO BIOSYNTHESIS | 42 | 2.19e-01 | 1.10e-01 | 5.12e-01 |
INHIBITION OF DNA RECOMBINATION AT TELOMERE | 36 | 2.58e-01 | 1.09e-01 | 5.53e-01 |
FRS MEDIATED FGFR2 SIGNALING | 18 | 4.24e-01 | 1.09e-01 | 6.99e-01 |
APOPTOTIC CLEAVAGE OF CELLULAR PROTEINS | 34 | 2.74e-01 | 1.08e-01 | 5.73e-01 |
FCGR3A MEDIATED IL10 SYNTHESIS | 32 | 2.90e-01 | -1.08e-01 | 5.85e-01 |
SIGNALLING TO ERKS | 33 | 2.84e-01 | -1.08e-01 | 5.79e-01 |
NOTCH2 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 11 | 5.37e-01 | -1.08e-01 | 7.71e-01 |
SIGNALING BY HEDGEHOG | 141 | 2.78e-02 | 1.07e-01 | 1.39e-01 |
RHO GTPASES ACTIVATE PAKS | 21 | 3.95e-01 | 1.07e-01 | 6.72e-01 |
TRANSCRIPTIONAL REGULATION BY RUNX1 | 178 | 1.38e-02 | 1.07e-01 | 8.61e-02 |
TRANSPORT OF MATURE TRANSCRIPT TO CYTOPLASM | 79 | 1.01e-01 | -1.07e-01 | 3.21e-01 |
SIGNALING BY FGFR3 FUSIONS IN CANCER | 10 | 5.61e-01 | 1.06e-01 | 7.86e-01 |
CROSSLINKING OF COLLAGEN FIBRILS | 16 | 4.65e-01 | -1.06e-01 | 7.22e-01 |
PLASMA LIPOPROTEIN CLEARANCE | 28 | 3.34e-01 | 1.06e-01 | 6.20e-01 |
DOWNSTREAM SIGNALING OF ACTIVATED FGFR4 | 19 | 4.27e-01 | 1.05e-01 | 6.99e-01 |
G2 M CHECKPOINTS | 133 | 3.62e-02 | 1.05e-01 | 1.63e-01 |
TRANSCRIPTIONAL ACTIVITY OF SMAD2 SMAD3 SMAD4 HETEROTRIMER | 43 | 2.32e-01 | -1.05e-01 | 5.27e-01 |
SYNDECAN INTERACTIONS | 27 | 3.46e-01 | 1.05e-01 | 6.28e-01 |
TRANSCRIPTIONAL REGULATION BY SMALL RNAS | 62 | 1.54e-01 | -1.05e-01 | 4.21e-01 |
TRNA PROCESSING | 105 | 6.43e-02 | -1.05e-01 | 2.43e-01 |
SIALIC ACID METABOLISM | 32 | 3.07e-01 | -1.04e-01 | 6.05e-01 |
IRS MEDIATED SIGNALLING | 39 | 2.60e-01 | -1.04e-01 | 5.55e-01 |
TBC RABGAPS | 43 | 2.38e-01 | -1.04e-01 | 5.32e-01 |
ROS AND RNS PRODUCTION IN PHAGOCYTES | 29 | 3.33e-01 | 1.04e-01 | 6.19e-01 |
EXTENSION OF TELOMERES | 49 | 2.09e-01 | 1.04e-01 | 4.98e-01 |
TRAF6 MEDIATED IRF7 ACTIVATION IN TLR7 8 OR 9 SIGNALING | 13 | 5.19e-01 | 1.03e-01 | 7.65e-01 |
RHOBTB2 GTPASE CYCLE | 23 | 3.92e-01 | 1.03e-01 | 6.70e-01 |
TGF BETA RECEPTOR SIGNALING IN EMT EPITHELIAL TO MESENCHYMAL TRANSITION | 16 | 4.75e-01 | 1.03e-01 | 7.30e-01 |
GLYCOSAMINOGLYCAN METABOLISM | 114 | 5.77e-02 | 1.03e-01 | 2.24e-01 |
SIGNALING BY WNT IN CANCER | 31 | 3.22e-01 | -1.03e-01 | 6.15e-01 |
PLATELET ADHESION TO EXPOSED COLLAGEN | 12 | 5.37e-01 | 1.03e-01 | 7.71e-01 |
ENDOGENOUS STEROLS | 21 | 4.15e-01 | 1.03e-01 | 6.92e-01 |
NUCLEOTIDE SALVAGE | 21 | 4.16e-01 | 1.03e-01 | 6.92e-01 |
FC EPSILON RECEPTOR FCERI SIGNALING | 124 | 5.02e-02 | 1.02e-01 | 2.05e-01 |
SYNTHESIS OF PE | 13 | 5.27e-01 | 1.01e-01 | 7.70e-01 |
AMINO ACID TRANSPORT ACROSS THE PLASMA MEMBRANE | 28 | 3.53e-01 | 1.01e-01 | 6.34e-01 |
GABA RECEPTOR ACTIVATION | 53 | 2.03e-01 | -1.01e-01 | 4.93e-01 |
CLASS A 1 RHODOPSIN LIKE RECEPTORS | 202 | 1.35e-02 | 1.01e-01 | 8.48e-02 |
REGULATION OF PYRUVATE DEHYDROGENASE PDH COMPLEX | 15 | 4.99e-01 | -1.01e-01 | 7.54e-01 |
CELL SURFACE INTERACTIONS AT THE VASCULAR WALL | 90 | 9.84e-02 | 1.01e-01 | 3.17e-01 |
CALNEXIN CALRETICULIN CYCLE | 26 | 3.74e-01 | 1.01e-01 | 6.52e-01 |
MAP2K AND MAPK ACTIVATION | 36 | 2.97e-01 | 1.01e-01 | 5.90e-01 |
SENSORY PROCESSING OF SOUND | 62 | 1.72e-01 | -1.00e-01 | 4.43e-01 |
SEALING OF THE NUCLEAR ENVELOPE NE BY ESCRT III | 23 | 4.06e-01 | 1.00e-01 | 6.82e-01 |
LYSOSOME VESICLE BIOGENESIS | 32 | 3.27e-01 | -1.00e-01 | 6.16e-01 |
PTEN REGULATION | 134 | 4.61e-02 | 9.99e-02 | 1.91e-01 |
SIGNALING BY PDGFRA TRANSMEMBRANE JUXTAMEMBRANE AND KINASE DOMAIN MUTANTS | 12 | 5.50e-01 | -9.96e-02 | 7.79e-01 |
IRON UPTAKE AND TRANSPORT | 52 | 2.15e-01 | 9.94e-02 | 5.10e-01 |
SIGNALING BY NOTCH | 189 | 1.92e-02 | 9.89e-02 | 1.08e-01 |
SIGNALING BY HIPPO | 20 | 4.44e-01 | -9.89e-02 | 7.16e-01 |
LYSOSPHINGOLIPID AND LPA RECEPTORS | 13 | 5.38e-01 | -9.87e-02 | 7.71e-01 |
HCMV EARLY EVENTS | 81 | 1.25e-01 | -9.87e-02 | 3.73e-01 |
GENERATION OF SECOND MESSENGER MOLECULES | 20 | 4.47e-01 | 9.82e-02 | 7.16e-01 |
CLASS B 2 SECRETIN FAMILY RECEPTORS | 69 | 1.61e-01 | 9.76e-02 | 4.32e-01 |
TRIGLYCERIDE METABOLISM | 24 | 4.08e-01 | 9.75e-02 | 6.85e-01 |
RHOJ GTPASE CYCLE | 54 | 2.17e-01 | -9.71e-02 | 5.11e-01 |
MUCOPOLYSACCHARIDOSES | 11 | 5.78e-01 | 9.68e-02 | 7.97e-01 |
JOSEPHIN DOMAIN DUBS | 11 | 5.79e-01 | 9.67e-02 | 7.97e-01 |
SARS COV 2 INFECTION | 65 | 1.79e-01 | 9.64e-02 | 4.54e-01 |
E2F MEDIATED REGULATION OF DNA REPLICATION | 19 | 4.69e-01 | -9.60e-02 | 7.25e-01 |
THE PHOTOTRANSDUCTION CASCADE | 21 | 4.48e-01 | -9.57e-02 | 7.16e-01 |
VEGFR2 MEDIATED CELL PROLIFERATION | 19 | 4.71e-01 | -9.55e-02 | 7.26e-01 |
TRISTETRAPROLIN TTP ZFP36 BINDS AND DESTABILIZES MRNA | 16 | 5.09e-01 | -9.53e-02 | 7.60e-01 |
GLUTAMATE AND GLUTAMINE METABOLISM | 13 | 5.52e-01 | -9.52e-02 | 7.80e-01 |
COBALAMIN CBL VITAMIN B12 TRANSPORT AND METABOLISM | 14 | 5.38e-01 | 9.50e-02 | 7.72e-01 |
SHC1 EVENTS IN ERBB4 SIGNALING | 13 | 5.54e-01 | 9.48e-02 | 7.81e-01 |
PEPTIDE LIGAND BINDING RECEPTORS | 120 | 7.31e-02 | 9.48e-02 | 2.66e-01 |
ELEVATION OF CYTOSOLIC CA2 LEVELS | 15 | 5.26e-01 | -9.45e-02 | 7.70e-01 |
NUCLEOTIDE BINDING DOMAIN LEUCINE RICH REPEAT CONTAINING RECEPTOR NLR SIGNALING PATHWAYS | 52 | 2.39e-01 | 9.44e-02 | 5.32e-01 |
INTERFERON GAMMA SIGNALING | 77 | 1.53e-01 | 9.42e-02 | 4.20e-01 |
PYROPTOSIS | 21 | 4.56e-01 | 9.39e-02 | 7.21e-01 |
ACTIVATED PKN1 STIMULATES TRANSCRIPTION OF AR ANDROGEN RECEPTOR REGULATED GENES KLK2 AND KLK3 | 22 | 4.47e-01 | 9.36e-02 | 7.16e-01 |
DOWNSTREAM SIGNALING OF ACTIVATED FGFR3 | 20 | 4.69e-01 | 9.34e-02 | 7.25e-01 |
GRB2 EVENTS IN ERBB2 SIGNALING | 15 | 5.31e-01 | 9.34e-02 | 7.71e-01 |
INSULIN RECEPTOR SIGNALLING CASCADE | 44 | 2.84e-01 | -9.34e-02 | 5.79e-01 |
NEGATIVE REGULATORS OF DDX58 IFIH1 SIGNALING | 33 | 3.54e-01 | 9.32e-02 | 6.35e-01 |
STIMULI SENSING CHANNELS | 74 | 1.66e-01 | -9.31e-02 | 4.37e-01 |
INFECTION WITH MYCOBACTERIUM TUBERCULOSIS | 24 | 4.30e-01 | 9.31e-02 | 7.03e-01 |
SHC1 EVENTS IN ERBB2 SIGNALING | 21 | 4.61e-01 | 9.29e-02 | 7.22e-01 |
CHROMATIN MODIFYING ENZYMES | 219 | 1.82e-02 | -9.27e-02 | 1.04e-01 |
SIGNALING BY NTRK3 TRKC | 17 | 5.11e-01 | -9.22e-02 | 7.60e-01 |
SUMOYLATION | 164 | 4.19e-02 | -9.22e-02 | 1.78e-01 |
TRANS GOLGI NETWORK VESICLE BUDDING | 69 | 1.87e-01 | -9.18e-02 | 4.66e-01 |
RHOB GTPASE CYCLE | 67 | 1.94e-01 | -9.17e-02 | 4.77e-01 |
PHOSPHORYLATION OF THE APC C | 17 | 5.14e-01 | 9.15e-02 | 7.61e-01 |
ANTIGEN ACTIVATES B CELL RECEPTOR BCR LEADING TO GENERATION OF SECOND MESSENGERS | 26 | 4.20e-01 | -9.15e-02 | 6.96e-01 |
TRANSCRIPTIONAL REGULATION BY MECP2 | 59 | 2.25e-01 | -9.14e-02 | 5.15e-01 |
RHOBTB1 GTPASE CYCLE | 23 | 4.49e-01 | 9.12e-02 | 7.16e-01 |
DISEASES ASSOCIATED WITH O GLYCOSYLATION OF PROTEINS | 50 | 2.65e-01 | -9.11e-02 | 5.62e-01 |
RUNX2 REGULATES BONE DEVELOPMENT | 29 | 3.97e-01 | 9.09e-02 | 6.72e-01 |
SIGNALING BY LEPTIN | 10 | 6.21e-01 | 9.03e-02 | 8.30e-01 |
NONHOMOLOGOUS END JOINING NHEJ | 44 | 3.05e-01 | -8.94e-02 | 6.03e-01 |
DISEASES ASSOCIATED WITH GLYCOSYLATION PRECURSOR BIOSYNTHESIS | 18 | 5.13e-01 | 8.90e-02 | 7.61e-01 |
CA2 PATHWAY | 57 | 2.46e-01 | 8.88e-02 | 5.44e-01 |
REPRODUCTION | 76 | 1.82e-01 | -8.86e-02 | 4.59e-01 |
REGULATION OF TP53 ACTIVITY THROUGH ACETYLATION | 30 | 4.03e-01 | -8.83e-02 | 6.79e-01 |
GPVI MEDIATED ACTIVATION CASCADE | 31 | 3.95e-01 | 8.83e-02 | 6.72e-01 |
TP53 REGULATES TRANSCRIPTION OF GENES INVOLVED IN G1 CELL CYCLE ARREST | 13 | 5.83e-01 | -8.81e-02 | 7.98e-01 |
RAB GERANYLGERANYLATION | 57 | 2.52e-01 | -8.78e-02 | 5.51e-01 |
STRIATED MUSCLE CONTRACTION | 25 | 4.48e-01 | 8.76e-02 | 7.16e-01 |
RMTS METHYLATE HISTONE ARGININES | 44 | 3.15e-01 | 8.75e-02 | 6.11e-01 |
SIGNALING BY INTERLEUKINS | 348 | 5.14e-03 | 8.75e-02 | 3.96e-02 |
SIGNALING BY PTK6 | 50 | 2.85e-01 | 8.74e-02 | 5.79e-01 |
PEPTIDE HORMONE METABOLISM | 61 | 2.39e-01 | 8.73e-02 | 5.32e-01 |
RESOLUTION OF SISTER CHROMATID COHESION | 103 | 1.27e-01 | -8.71e-02 | 3.78e-01 |
SIGNALING BY WNT | 268 | 1.48e-02 | 8.67e-02 | 8.83e-02 |
MRNA CAPPING | 29 | 4.20e-01 | 8.65e-02 | 6.96e-01 |
FRS MEDIATED FGFR1 SIGNALING | 17 | 5.42e-01 | 8.54e-02 | 7.75e-01 |
APOPTOSIS | 164 | 5.95e-02 | 8.54e-02 | 2.28e-01 |
ACTIVATION OF SMO | 16 | 5.56e-01 | 8.50e-02 | 7.82e-01 |
SARS COV 1 INFECTION | 48 | 3.09e-01 | 8.50e-02 | 6.05e-01 |
REGULATION OF BACH1 ACTIVITY | 11 | 6.26e-01 | -8.50e-02 | 8.33e-01 |
MTORC1 MEDIATED SIGNALLING | 24 | 4.72e-01 | 8.49e-02 | 7.26e-01 |
DNA DAMAGE RECOGNITION IN GG NER | 38 | 3.67e-01 | -8.46e-02 | 6.45e-01 |
GAP JUNCTION ASSEMBLY | 21 | 5.03e-01 | 8.45e-02 | 7.57e-01 |
TIGHT JUNCTION INTERACTIONS | 17 | 5.47e-01 | -8.43e-02 | 7.78e-01 |
PROCESSING OF SMDT1 | 16 | 5.61e-01 | 8.39e-02 | 7.86e-01 |
METALLOPROTEASE DUBS | 26 | 4.62e-01 | 8.33e-02 | 7.22e-01 |
SIGNALING BY ERBB4 | 57 | 2.77e-01 | 8.32e-02 | 5.76e-01 |
DISEASES ASSOCIATED WITH N GLYCOSYLATION OF PROTEINS | 17 | 5.53e-01 | -8.32e-02 | 7.80e-01 |
TRANSFERRIN ENDOCYTOSIS AND RECYCLING | 26 | 4.63e-01 | 8.32e-02 | 7.22e-01 |
SODIUM CALCIUM EXCHANGERS | 10 | 6.49e-01 | -8.31e-02 | 8.46e-01 |
TOLL LIKE RECEPTOR 9 TLR9 CASCADE | 91 | 1.71e-01 | -8.30e-02 | 4.43e-01 |
PIWI INTERACTING RNA PIRNA BIOGENESIS | 19 | 5.31e-01 | 8.30e-02 | 7.71e-01 |
INTRINSIC PATHWAY FOR APOPTOSIS | 52 | 3.01e-01 | -8.29e-02 | 5.98e-01 |
HCMV LATE EVENTS | 66 | 2.45e-01 | -8.28e-02 | 5.42e-01 |
DDX58 IFIH1 MEDIATED INDUCTION OF INTERFERON ALPHA BETA | 63 | 2.56e-01 | 8.28e-02 | 5.51e-01 |
DOWNREGULATION OF ERBB2 ERBB3 SIGNALING | 13 | 6.05e-01 | -8.27e-02 | 8.15e-01 |
FORMATION OF FIBRIN CLOT CLOTTING CASCADE | 21 | 5.14e-01 | 8.23e-02 | 7.61e-01 |
STING MEDIATED INDUCTION OF HOST IMMUNE RESPONSES | 14 | 5.95e-01 | 8.21e-02 | 8.09e-01 |
TERMINATION OF TRANSLESION DNA SYNTHESIS | 31 | 4.29e-01 | 8.21e-02 | 7.02e-01 |
TRANSCRIPTIONAL REGULATION BY E2F6 | 34 | 4.09e-01 | 8.19e-02 | 6.85e-01 |
RHOBTB3 ATPASE CYCLE | 10 | 6.55e-01 | -8.17e-02 | 8.51e-01 |
TRAFFICKING AND PROCESSING OF ENDOSOMAL TLR | 11 | 6.39e-01 | 8.16e-02 | 8.40e-01 |
ACYL CHAIN REMODELLING OF PS | 14 | 5.97e-01 | 8.16e-02 | 8.11e-01 |
PLATELET ACTIVATION SIGNALING AND AGGREGATION | 223 | 3.61e-02 | 8.16e-02 | 1.63e-01 |
NEF MEDIATED DOWNREGULATION OF MHC CLASS I COMPLEX CELL SURFACE EXPRESSION | 12 | 6.27e-01 | 8.11e-02 | 8.33e-01 |
MEIOSIS | 63 | 2.67e-01 | -8.09e-02 | 5.63e-01 |
TRANSCRIPTIONAL REGULATION BY VENTX | 35 | 4.09e-01 | 8.06e-02 | 6.85e-01 |
ENDOSOMAL SORTING COMPLEX REQUIRED FOR TRANSPORT ESCRT | 30 | 4.45e-01 | 8.06e-02 | 7.16e-01 |
FACTORS INVOLVED IN MEGAKARYOCYTE DEVELOPMENT AND PLATELET PRODUCTION | 119 | 1.29e-01 | -8.06e-02 | 3.81e-01 |
INWARDLY RECTIFYING K CHANNELS | 31 | 4.40e-01 | -8.01e-02 | 7.12e-01 |
MITOTIC SPINDLE CHECKPOINT | 98 | 1.73e-01 | -7.98e-02 | 4.43e-01 |
G ALPHA Z SIGNALLING EVENTS | 45 | 3.56e-01 | 7.95e-02 | 6.36e-01 |
HIV TRANSCRIPTION INITIATION | 45 | 3.58e-01 | 7.93e-02 | 6.37e-01 |
SIGNALING BY VEGF | 103 | 1.69e-01 | -7.84e-02 | 4.41e-01 |
CTLA4 INHIBITORY SIGNALING | 20 | 5.49e-01 | -7.74e-02 | 7.79e-01 |
WNT LIGAND BIOGENESIS AND TRAFFICKING | 20 | 5.51e-01 | -7.71e-02 | 7.79e-01 |
RHOQ GTPASE CYCLE | 58 | 3.10e-01 | -7.71e-02 | 6.06e-01 |
HIV LIFE CYCLE | 143 | 1.14e-01 | -7.66e-02 | 3.53e-01 |
HS GAG DEGRADATION | 21 | 5.44e-01 | 7.65e-02 | 7.75e-01 |
MYOGENESIS | 25 | 5.10e-01 | -7.61e-02 | 7.60e-01 |
INITIATION OF NUCLEAR ENVELOPE NE REFORMATION | 17 | 5.88e-01 | 7.60e-02 | 8.02e-01 |
NEGATIVE REGULATION OF THE PI3K AKT NETWORK | 94 | 2.04e-01 | -7.59e-02 | 4.93e-01 |
REGULATION OF LOCALIZATION OF FOXO TRANSCRIPTION FACTORS | 12 | 6.50e-01 | -7.56e-02 | 8.47e-01 |
VXPX CARGO TARGETING TO CILIUM | 19 | 5.69e-01 | -7.54e-02 | 7.94e-01 |
RORA ACTIVATES GENE EXPRESSION | 18 | 5.81e-01 | 7.51e-02 | 7.97e-01 |
HOST INTERACTIONS OF HIV FACTORS | 125 | 1.47e-01 | 7.51e-02 | 4.11e-01 |
TRANSCRIPTIONAL REGULATION BY THE AP 2 TFAP2 FAMILY OF TRANSCRIPTION FACTORS | 31 | 4.70e-01 | -7.51e-02 | 7.25e-01 |
METABOLISM OF LIPIDS | 614 | 1.59e-03 | 7.49e-02 | 1.47e-02 |
DOWNREGULATION OF TGF BETA RECEPTOR SIGNALING | 26 | 5.10e-01 | -7.46e-02 | 7.60e-01 |
SEPARATION OF SISTER CHROMATIDS | 167 | 9.70e-02 | 7.45e-02 | 3.15e-01 |
GPCR LIGAND BINDING | 283 | 3.18e-02 | 7.43e-02 | 1.50e-01 |
ENERGY DEPENDENT REGULATION OF MTOR BY LKB1 AMPK | 28 | 4.97e-01 | -7.42e-02 | 7.52e-01 |
N GLYCAN ANTENNAE ELONGATION IN THE MEDIAL TRANS GOLGI | 24 | 5.30e-01 | -7.41e-02 | 7.70e-01 |
AMINE LIGAND BINDING RECEPTORS | 31 | 4.77e-01 | -7.38e-02 | 7.32e-01 |
HS GAG BIOSYNTHESIS | 29 | 4.93e-01 | 7.35e-02 | 7.49e-01 |
RAF ACTIVATION | 34 | 4.59e-01 | -7.34e-02 | 7.22e-01 |
MITOCHONDRIAL BIOGENESIS | 92 | 2.27e-01 | 7.29e-02 | 5.18e-01 |
ASSEMBLY AND CELL SURFACE PRESENTATION OF NMDA RECEPTORS | 35 | 4.55e-01 | -7.29e-02 | 7.21e-01 |
TP53 REGULATES TRANSCRIPTION OF DNA REPAIR GENES | 61 | 3.28e-01 | -7.25e-02 | 6.16e-01 |
SIGNALING BY KIT IN DISEASE | 20 | 5.76e-01 | -7.22e-02 | 7.97e-01 |
TP53 REGULATES TRANSCRIPTION OF SEVERAL ADDITIONAL CELL DEATH GENES WHOSE SPECIFIC ROLES IN P53 DEPENDENT APOPTOSIS REMAIN UNCERTAIN | 12 | 6.65e-01 | -7.22e-02 | 8.59e-01 |
EPH EPHRIN MEDIATED REPULSION OF CELLS | 51 | 3.74e-01 | -7.20e-02 | 6.52e-01 |
ECM PROTEOGLYCANS | 67 | 3.08e-01 | 7.20e-02 | 6.05e-01 |
GLYCEROPHOSPHOLIPID BIOSYNTHESIS | 107 | 1.99e-01 | 7.19e-02 | 4.87e-01 |
RHO GTPASES ACTIVATE FORMINS | 120 | 1.74e-01 | -7.18e-02 | 4.46e-01 |
ACTIVATION OF THE PRE REPLICATIVE COMPLEX | 29 | 5.07e-01 | -7.12e-02 | 7.60e-01 |
ESTROGEN DEPENDENT NUCLEAR EVENTS DOWNSTREAM OF ESR MEMBRANE SIGNALING | 21 | 5.73e-01 | -7.10e-02 | 7.97e-01 |
ADORA2B MEDIATED ANTI INFLAMMATORY CYTOKINES PRODUCTION | 92 | 2.40e-01 | 7.09e-02 | 5.33e-01 |
VISUAL PHOTOTRANSDUCTION | 62 | 3.35e-01 | 7.08e-02 | 6.20e-01 |
ACETYLCHOLINE REGULATES INSULIN SECRETION | 10 | 6.99e-01 | -7.07e-02 | 8.78e-01 |
HEPARAN SULFATE HEPARIN HS GAG METABOLISM | 52 | 3.79e-01 | 7.05e-02 | 6.57e-01 |
CYTOSOLIC SULFONATION OF SMALL MOLECULES | 15 | 6.37e-01 | 7.05e-02 | 8.39e-01 |
IRF3 MEDIATED INDUCTION OF TYPE I IFN | 11 | 6.86e-01 | 7.03e-02 | 8.73e-01 |
CHAPERONE MEDIATED AUTOPHAGY | 21 | 5.78e-01 | 7.02e-02 | 7.97e-01 |
CLATHRIN MEDIATED ENDOCYTOSIS | 135 | 1.60e-01 | -7.01e-02 | 4.32e-01 |
REGULATED PROTEOLYSIS OF P75NTR | 12 | 6.75e-01 | 6.99e-02 | 8.66e-01 |
HSF1 ACTIVATION | 25 | 5.47e-01 | 6.95e-02 | 7.78e-01 |
EXTRA NUCLEAR ESTROGEN SIGNALING | 67 | 3.25e-01 | 6.95e-02 | 6.15e-01 |
SHC MEDIATED CASCADE FGFR1 | 15 | 6.42e-01 | 6.94e-02 | 8.42e-01 |
AKT PHOSPHORYLATES TARGETS IN THE NUCLEUS | 10 | 7.05e-01 | -6.93e-02 | 8.81e-01 |
SYNTHESIS OF PA | 29 | 5.23e-01 | 6.85e-02 | 7.69e-01 |
CELL JUNCTION ORGANIZATION | 73 | 3.12e-01 | -6.85e-02 | 6.08e-01 |
G ALPHA Q SIGNALLING EVENTS | 167 | 1.28e-01 | 6.84e-02 | 3.78e-01 |
P38MAPK EVENTS | 12 | 6.84e-01 | -6.78e-02 | 8.73e-01 |
PURINE SALVAGE | 12 | 6.84e-01 | 6.78e-02 | 8.73e-01 |
SIGNALING BY FGFR2 IN DISEASE | 36 | 4.84e-01 | 6.74e-02 | 7.40e-01 |
CDC42 GTPASE CYCLE | 152 | 1.55e-01 | -6.69e-02 | 4.22e-01 |
ATF4 ACTIVATES GENES IN RESPONSE TO ENDOPLASMIC RETICULUM STRESS | 23 | 5.81e-01 | -6.65e-02 | 7.97e-01 |
FORMATION OF THE CORNIFIED ENVELOPE | 30 | 5.28e-01 | -6.65e-02 | 7.70e-01 |
KERATINIZATION | 30 | 5.28e-01 | -6.65e-02 | 7.70e-01 |
FORMATION OF THE BETA CATENIN TCF TRANSACTIVATING COMPLEX | 47 | 4.31e-01 | 6.64e-02 | 7.03e-01 |
TRANSLATION OF SARS COV 2 STRUCTURAL PROTEINS | 44 | 4.48e-01 | 6.61e-02 | 7.16e-01 |
DNA STRAND ELONGATION | 32 | 5.19e-01 | 6.59e-02 | 7.65e-01 |
SIGNALING BY RETINOIC ACID | 32 | 5.20e-01 | 6.58e-02 | 7.65e-01 |
DAP12 SIGNALING | 24 | 5.77e-01 | 6.57e-02 | 7.97e-01 |
VEGFR2 MEDIATED VASCULAR PERMEABILITY | 27 | 5.57e-01 | 6.54e-02 | 7.82e-01 |
MEIOTIC SYNAPSIS | 40 | 4.80e-01 | -6.45e-02 | 7.35e-01 |
COLLAGEN BIOSYNTHESIS AND MODIFYING ENZYMES | 62 | 3.82e-01 | -6.43e-02 | 6.58e-01 |
REGULATION OF TP53 ACTIVITY | 150 | 1.79e-01 | -6.37e-02 | 4.54e-01 |
ABORTIVE ELONGATION OF HIV 1 TRANSCRIPT IN THE ABSENCE OF TAT | 23 | 5.97e-01 | 6.36e-02 | 8.11e-01 |
DOWNSTREAM SIGNALING OF ACTIVATED FGFR2 | 23 | 6.00e-01 | 6.32e-02 | 8.13e-01 |
INTERLEUKIN RECEPTOR SHC SIGNALING | 20 | 6.25e-01 | -6.31e-02 | 8.33e-01 |
MITOTIC METAPHASE AND ANAPHASE | 208 | 1.18e-01 | 6.30e-02 | 3.61e-01 |
INTERLEUKIN 10 SIGNALING | 20 | 6.26e-01 | 6.29e-02 | 8.33e-01 |
OPIOID SIGNALLING | 86 | 3.13e-01 | -6.29e-02 | 6.10e-01 |
TRANSPORT OF BILE SALTS AND ORGANIC ACIDS METAL IONS AND AMINE COMPOUNDS | 69 | 3.67e-01 | 6.29e-02 | 6.45e-01 |
CASPASE ACTIVATION VIA EXTRINSIC APOPTOTIC SIGNALLING PATHWAY | 23 | 6.03e-01 | -6.27e-02 | 8.15e-01 |
RRNA PROCESSING IN THE MITOCHONDRION | 10 | 7.31e-01 | -6.27e-02 | 8.92e-01 |
FORMATION OF THE EARLY ELONGATION COMPLEX | 33 | 5.34e-01 | 6.26e-02 | 7.71e-01 |
IONOTROPIC ACTIVITY OF KAINATE RECEPTORS | 10 | 7.32e-01 | -6.26e-02 | 8.92e-01 |
DISEASES OF MITOTIC CELL CYCLE | 37 | 5.12e-01 | 6.23e-02 | 7.61e-01 |
DISEASES OF PROGRAMMED CELL DEATH | 55 | 4.26e-01 | 6.21e-02 | 6.99e-01 |
RHO GTPASES ACTIVATE PKNS | 48 | 4.58e-01 | 6.20e-02 | 7.21e-01 |
EPHA MEDIATED GROWTH CONE COLLAPSE | 29 | 5.66e-01 | 6.16e-02 | 7.90e-01 |
TRANSLATION OF REPLICASE AND ASSEMBLY OF THE REPLICATION TRANSCRIPTION COMPLEX | 12 | 7.13e-01 | 6.13e-02 | 8.85e-01 |
SIGNALING BY ERYTHROPOIETIN | 24 | 6.05e-01 | -6.10e-02 | 8.15e-01 |
TRANSCRIPTIONAL REGULATION OF WHITE ADIPOCYTE DIFFERENTIATION | 74 | 3.64e-01 | 6.10e-02 | 6.45e-01 |
CARGO TRAFFICKING TO THE PERICILIARY MEMBRANE | 49 | 4.61e-01 | 6.09e-02 | 7.22e-01 |
DNA DOUBLE STRAND BREAK REPAIR | 136 | 2.21e-01 | -6.08e-02 | 5.13e-01 |
TOLL LIKE RECEPTOR TLR1 TLR2 CASCADE | 93 | 3.14e-01 | -6.05e-02 | 6.10e-01 |
UNWINDING OF DNA | 12 | 7.21e-01 | -5.95e-02 | 8.90e-01 |
SYNTHESIS OF BILE ACIDS AND BILE SALTS | 21 | 6.38e-01 | 5.93e-02 | 8.40e-01 |
PROGRAMMED CELL DEATH | 186 | 1.64e-01 | 5.93e-02 | 4.36e-01 |
BLOOD GROUP SYSTEMS BIOSYNTHESIS | 13 | 7.13e-01 | -5.89e-02 | 8.85e-01 |
MRNA SPLICING | 188 | 1.66e-01 | 5.86e-02 | 4.37e-01 |
TRANSCRIPTIONAL ACTIVATION OF MITOCHONDRIAL BIOGENESIS | 54 | 4.57e-01 | -5.86e-02 | 7.21e-01 |
ION CHANNEL TRANSPORT | 140 | 2.32e-01 | -5.86e-02 | 5.27e-01 |
CARGO RECOGNITION FOR CLATHRIN MEDIATED ENDOCYTOSIS | 95 | 3.24e-01 | -5.85e-02 | 6.15e-01 |
METABOLISM OF FOLATE AND PTERINES | 15 | 6.95e-01 | 5.84e-02 | 8.77e-01 |
HDR THROUGH HOMOLOGOUS RECOMBINATION HRR | 62 | 4.27e-01 | -5.84e-02 | 6.99e-01 |
SIGNALING BY TYPE 1 INSULIN LIKE GROWTH FACTOR 1 RECEPTOR IGF1R | 44 | 5.04e-01 | -5.83e-02 | 7.58e-01 |
NUCLEAR ENVELOPE NE REASSEMBLY | 64 | 4.22e-01 | -5.81e-02 | 6.97e-01 |
GAB1 SIGNALOSOME | 14 | 7.08e-01 | -5.77e-02 | 8.83e-01 |
RHOD GTPASE CYCLE | 50 | 4.81e-01 | -5.77e-02 | 7.35e-01 |
CITRIC ACID CYCLE TCA CYCLE | 22 | 6.40e-01 | 5.77e-02 | 8.40e-01 |
GROWTH HORMONE RECEPTOR SIGNALING | 21 | 6.48e-01 | 5.76e-02 | 8.46e-01 |
SYNTHESIS OF VERY LONG CHAIN FATTY ACYL COAS | 20 | 6.56e-01 | 5.76e-02 | 8.51e-01 |
REGULATION OF IFNA SIGNALING | 12 | 7.31e-01 | 5.74e-02 | 8.92e-01 |
DISEASES OF GLYCOSYLATION | 124 | 2.72e-01 | 5.72e-02 | 5.71e-01 |
THE NLRP3 INFLAMMASOME | 15 | 7.02e-01 | 5.71e-02 | 8.80e-01 |
RND3 GTPASE CYCLE | 37 | 5.49e-01 | -5.69e-02 | 7.79e-01 |
DISORDERS OF TRANSMEMBRANE TRANSPORTERS | 146 | 2.39e-01 | 5.65e-02 | 5.32e-01 |
SIGNALING BY NUCLEAR RECEPTORS | 223 | 1.48e-01 | 5.64e-02 | 4.11e-01 |
CHK1 CHK2 CDS1 MEDIATED INACTIVATION OF CYCLIN B CDK1 COMPLEX | 10 | 7.58e-01 | -5.63e-02 | 9.04e-01 |
NEDDYLATION | 219 | 1.52e-01 | 5.63e-02 | 4.18e-01 |
RESPONSE OF MTB TO PHAGOCYTOSIS | 21 | 6.57e-01 | 5.60e-02 | 8.51e-01 |
MEMBRANE TRAFFICKING | 583 | 2.16e-02 | -5.59e-02 | 1.16e-01 |
RHO GTPASES ACTIVATE NADPH OXIDASES | 20 | 6.66e-01 | 5.58e-02 | 8.59e-01 |
DEADENYLATION OF MRNA | 25 | 6.30e-01 | -5.57e-02 | 8.34e-01 |
SMOOTH MUSCLE CONTRACTION | 34 | 5.75e-01 | 5.56e-02 | 7.97e-01 |
LAMININ INTERACTIONS | 29 | 6.06e-01 | -5.53e-02 | 8.15e-01 |
INTERLEUKIN 3 INTERLEUKIN 5 AND GM CSF SIGNALING | 41 | 5.41e-01 | 5.53e-02 | 7.74e-01 |
COPI INDEPENDENT GOLGI TO ER RETROGRADE TRAFFIC | 44 | 5.28e-01 | -5.50e-02 | 7.70e-01 |
UPTAKE AND FUNCTION OF ANTHRAX TOXINS | 11 | 7.53e-01 | 5.48e-02 | 9.04e-01 |
UNFOLDED PROTEIN RESPONSE UPR | 86 | 3.80e-01 | 5.47e-02 | 6.58e-01 |
SIGNAL TRANSDUCTION BY L1 | 21 | 6.65e-01 | -5.45e-02 | 8.59e-01 |
NA CL DEPENDENT NEUROTRANSMITTER TRANSPORTERS | 13 | 7.35e-01 | 5.41e-02 | 8.95e-01 |
RHO GTPASE CYCLE | 425 | 5.75e-02 | -5.39e-02 | 2.24e-01 |
RAC1 GTPASE CYCLE | 177 | 2.17e-01 | -5.38e-02 | 5.11e-01 |
PYRUVATE METABOLISM | 27 | 6.28e-01 | -5.38e-02 | 8.34e-01 |
SIGNALING BY NTRK2 TRKB | 24 | 6.48e-01 | -5.38e-02 | 8.46e-01 |
PLATELET HOMEOSTASIS | 77 | 4.16e-01 | -5.36e-02 | 6.92e-01 |
SIGNALING BY ACTIVIN | 12 | 7.49e-01 | -5.35e-02 | 9.04e-01 |
TP53 REGULATES TRANSCRIPTION OF CELL CYCLE GENES | 45 | 5.36e-01 | -5.33e-02 | 7.71e-01 |
PROCESSING AND ACTIVATION OF SUMO | 10 | 7.71e-01 | 5.31e-02 | 9.06e-01 |
VESICLE MEDIATED TRANSPORT | 614 | 2.53e-02 | -5.31e-02 | 1.32e-01 |
RHOF GTPASE CYCLE | 40 | 5.62e-01 | -5.30e-02 | 7.86e-01 |
REGULATION OF CHOLESTEROL BIOSYNTHESIS BY SREBP SREBF | 56 | 4.94e-01 | -5.28e-02 | 7.49e-01 |
HOMOLOGY DIRECTED REPAIR | 107 | 3.48e-01 | -5.26e-02 | 6.29e-01 |
NERVOUS SYSTEM DEVELOPMENT | 550 | 3.57e-02 | 5.26e-02 | 1.63e-01 |
RAB REGULATION OF TRAFFICKING | 119 | 3.25e-01 | -5.23e-02 | 6.15e-01 |
AKT PHOSPHORYLATES TARGETS IN THE CYTOSOL | 14 | 7.35e-01 | -5.22e-02 | 8.95e-01 |
HSP90 CHAPERONE CYCLE FOR STEROID HORMONE RECEPTORS SHR | 48 | 5.32e-01 | -5.22e-02 | 7.71e-01 |
HEME BIOSYNTHESIS | 13 | 7.45e-01 | 5.22e-02 | 9.04e-01 |
COPI MEDIATED ANTEROGRADE TRANSPORT | 91 | 3.90e-01 | -5.21e-02 | 6.70e-01 |
SIGNALING BY NOTCH2 | 33 | 6.06e-01 | 5.19e-02 | 8.15e-01 |
ENOS ACTIVATION | 11 | 7.66e-01 | 5.18e-02 | 9.05e-01 |
NOTCH3 ACTIVATION AND TRANSMISSION OF SIGNAL TO THE NUCLEUS | 26 | 6.48e-01 | 5.17e-02 | 8.46e-01 |
SIGNALLING TO RAS | 19 | 6.98e-01 | -5.15e-02 | 8.78e-01 |
FATTY ACYL COA BIOSYNTHESIS | 32 | 6.14e-01 | 5.15e-02 | 8.24e-01 |
SIGNALING BY MET | 75 | 4.42e-01 | 5.14e-02 | 7.13e-01 |
METABOLISM OF VITAMINS AND COFACTORS | 156 | 2.69e-01 | 5.13e-02 | 5.66e-01 |
TRANSPORT TO THE GOLGI AND SUBSEQUENT MODIFICATION | 171 | 2.52e-01 | -5.08e-02 | 5.51e-01 |
SIGNALING BY FGFR3 | 35 | 6.04e-01 | 5.07e-02 | 8.15e-01 |
INTERLEUKIN 37 SIGNALING | 18 | 7.11e-01 | 5.05e-02 | 8.85e-01 |
CYTOKINE SIGNALING IN IMMUNE SYSTEM | 545 | 4.49e-02 | 5.04e-02 | 1.89e-01 |
TRIGLYCERIDE BIOSYNTHESIS | 10 | 7.83e-01 | 5.03e-02 | 9.11e-01 |
BINDING AND UPTAKE OF LIGANDS BY SCAVENGER RECEPTORS | 33 | 6.18e-01 | 5.02e-02 | 8.28e-01 |
NON INTEGRIN MEMBRANE ECM INTERACTIONS | 57 | 5.14e-01 | 5.00e-02 | 7.61e-01 |
TIE2 SIGNALING | 17 | 7.23e-01 | 4.96e-02 | 8.90e-01 |
PYRIMIDINE SALVAGE | 10 | 7.87e-01 | 4.94e-02 | 9.13e-01 |
ACTIVATION OF ANTERIOR HOX GENES IN HINDBRAIN DEVELOPMENT DURING EARLY EMBRYOGENESIS | 67 | 4.85e-01 | 4.94e-02 | 7.40e-01 |
RECYCLING PATHWAY OF L1 | 40 | 5.92e-01 | -4.90e-02 | 8.06e-01 |
CARNITINE METABOLISM | 14 | 7.51e-01 | 4.90e-02 | 9.04e-01 |
SIGNALING BY FGFR4 IN DISEASE | 10 | 7.88e-01 | -4.90e-02 | 9.13e-01 |
NEF MEDIATES DOWN MODULATION OF CELL SURFACE RECEPTORS BY RECRUITING THEM TO CLATHRIN ADAPTERS | 21 | 6.99e-01 | 4.87e-02 | 8.78e-01 |
REGULATION OF PTEN GENE TRANSCRIPTION | 58 | 5.22e-01 | -4.86e-02 | 7.68e-01 |
DUAL INCISION IN TC NER | 64 | 5.02e-01 | 4.85e-02 | 7.57e-01 |
DEADENYLATION DEPENDENT MRNA DECAY | 55 | 5.35e-01 | -4.84e-02 | 7.71e-01 |
RAB GEFS EXCHANGE GTP FOR GDP ON RABS | 88 | 4.33e-01 | -4.84e-02 | 7.05e-01 |
SIGNALING BY EGFR IN CANCER | 22 | 6.95e-01 | 4.83e-02 | 8.77e-01 |
ER TO GOLGI ANTEROGRADE TRANSPORT | 142 | 3.22e-01 | -4.82e-02 | 6.15e-01 |
SIGNALING BY RHO GTPASES MIRO GTPASES AND RHOBTB3 | 630 | 3.99e-02 | -4.82e-02 | 1.73e-01 |
WNT5A DEPENDENT INTERNALIZATION OF FZD2 FZD5 AND ROR2 | 13 | 7.64e-01 | 4.81e-02 | 9.05e-01 |
COLLAGEN FORMATION | 79 | 4.61e-01 | -4.80e-02 | 7.22e-01 |
KINESINS | 48 | 5.66e-01 | -4.79e-02 | 7.90e-01 |
TICAM1 TRAF6 DEPENDENT INDUCTION OF TAK1 COMPLEX | 11 | 7.85e-01 | 4.76e-02 | 9.12e-01 |
CLASS I MHC MEDIATED ANTIGEN PROCESSING PRESENTATION | 347 | 1.29e-01 | 4.75e-02 | 3.81e-01 |
VASOPRESSIN REGULATES RENAL WATER HOMEOSTASIS VIA AQUAPORINS | 36 | 6.26e-01 | 4.70e-02 | 8.33e-01 |
SIGNALING BY NOTCH1 HD DOMAIN MUTANTS IN CANCER | 15 | 7.54e-01 | 4.68e-02 | 9.04e-01 |
MAP3K8 TPL2 DEPENDENT MAPK1 3 ACTIVATION | 16 | 7.46e-01 | -4.68e-02 | 9.04e-01 |
PI 3K CASCADE FGFR1 | 15 | 7.54e-01 | -4.67e-02 | 9.04e-01 |
DEATH RECEPTOR SIGNALLING | 133 | 3.58e-01 | -4.62e-02 | 6.37e-01 |
SIGNALING BY TGF BETA RECEPTOR COMPLEX | 72 | 5.00e-01 | -4.60e-02 | 7.55e-01 |
EXTRACELLULAR MATRIX ORGANIZATION | 244 | 2.18e-01 | 4.58e-02 | 5.12e-01 |
DNA REPAIR | 292 | 1.80e-01 | -4.57e-02 | 4.56e-01 |
SIGNALING BY BMP | 25 | 6.94e-01 | -4.55e-02 | 8.77e-01 |
PENTOSE PHOSPHATE PATHWAY | 13 | 7.77e-01 | 4.54e-02 | 9.09e-01 |
INSULIN RECEPTOR RECYCLING | 20 | 7.26e-01 | 4.54e-02 | 8.92e-01 |
MITOTIC TELOPHASE CYTOKINESIS | 13 | 7.77e-01 | -4.53e-02 | 9.09e-01 |
CD28 CO STIMULATION | 31 | 6.63e-01 | 4.52e-02 | 8.58e-01 |
RHOA GTPASE CYCLE | 142 | 3.55e-01 | -4.50e-02 | 6.35e-01 |
TRANSLESION SYNTHESIS BY Y FAMILY DNA POLYMERASES BYPASSES LESIONS ON DNA TEMPLATE | 38 | 6.32e-01 | 4.50e-02 | 8.35e-01 |
NRIF SIGNALS CELL DEATH FROM THE NUCLEUS | 17 | 7.49e-01 | 4.49e-02 | 9.04e-01 |
ACTIVATION OF AMPK DOWNSTREAM OF NMDARS | 20 | 7.29e-01 | -4.48e-02 | 8.92e-01 |
MRNA DECAY BY 5 TO 3 EXORIBONUCLEASE | 15 | 7.65e-01 | -4.46e-02 | 9.05e-01 |
ANTI INFLAMMATORY RESPONSE FAVOURING LEISHMANIA PARASITE INFECTION | 117 | 4.06e-01 | 4.45e-02 | 6.82e-01 |
DISEASES OF SIGNAL TRANSDUCTION BY GROWTH FACTOR RECEPTORS AND SECOND MESSENGERS | 366 | 1.45e-01 | 4.45e-02 | 4.09e-01 |
HIV INFECTION | 221 | 2.56e-01 | 4.44e-02 | 5.51e-01 |
SIGNALING BY INSULIN RECEPTOR | 63 | 5.44e-01 | -4.42e-02 | 7.75e-01 |
NEUREXINS AND NEUROLIGINS | 54 | 5.75e-01 | -4.41e-02 | 7.97e-01 |
PHOSPHOLIPASE C MEDIATED CASCADE FGFR2 | 11 | 8.01e-01 | -4.39e-02 | 9.16e-01 |
METABOLISM OF STEROIDS | 115 | 4.18e-01 | 4.38e-02 | 6.94e-01 |
SIGNALING BY EGFR | 47 | 6.04e-01 | 4.37e-02 | 8.15e-01 |
RNA POLYMERASE II TRANSCRIBES SNRNA GENES | 74 | 5.16e-01 | -4.36e-02 | 7.63e-01 |
SIGNALING BY MODERATE KINASE ACTIVITY BRAF MUTANTS | 41 | 6.30e-01 | 4.35e-02 | 8.34e-01 |
REGULATION OF TP53 ACTIVITY THROUGH PHOSPHORYLATION | 87 | 4.85e-01 | -4.33e-02 | 7.40e-01 |
RECOGNITION OF DNA DAMAGE BY PCNA CONTAINING REPLICATION COMPLEX | 29 | 6.88e-01 | 4.31e-02 | 8.74e-01 |
ATTENUATION PHASE | 23 | 7.21e-01 | 4.30e-02 | 8.90e-01 |
CILIUM ASSEMBLY | 192 | 3.07e-01 | -4.28e-02 | 6.05e-01 |
SUMOYLATION OF TRANSCRIPTION FACTORS | 17 | 7.61e-01 | -4.27e-02 | 9.04e-01 |
SIGNALING BY FGFR4 | 33 | 6.73e-01 | 4.25e-02 | 8.63e-01 |
G ALPHA 12 13 SIGNALLING EVENTS | 74 | 5.29e-01 | 4.23e-02 | 7.70e-01 |
DEVELOPMENTAL BIOLOGY | 821 | 4.04e-02 | 4.23e-02 | 1.75e-01 |
RHO GTPASES ACTIVATE IQGAPS | 24 | 7.20e-01 | 4.23e-02 | 8.90e-01 |
ESR MEDIATED SIGNALING | 167 | 3.47e-01 | 4.22e-02 | 6.29e-01 |
CELL CELL COMMUNICATION | 106 | 4.55e-01 | -4.20e-02 | 7.21e-01 |
SENSORY PERCEPTION | 149 | 3.81e-01 | -4.16e-02 | 6.58e-01 |
COHESIN LOADING ONTO CHROMATIN | 10 | 8.21e-01 | 4.14e-02 | 9.26e-01 |
SIGNALING BY ERBB2 | 48 | 6.20e-01 | 4.13e-02 | 8.30e-01 |
GAP JUNCTION TRAFFICKING AND REGULATION | 33 | 6.82e-01 | 4.12e-02 | 8.73e-01 |
PHOSPHOLIPID METABOLISM | 185 | 3.37e-01 | -4.10e-02 | 6.21e-01 |
ACTIVATED NOTCH1 TRANSMITS SIGNAL TO THE NUCLEUS | 32 | 6.89e-01 | 4.09e-02 | 8.74e-01 |
RESOLUTION OF ABASIC SITES AP SITES | 37 | 6.67e-01 | -4.08e-02 | 8.60e-01 |
ABERRANT REGULATION OF MITOTIC G1 S TRANSITION IN CANCER DUE TO RB1 DEFECTS | 17 | 7.72e-01 | 4.06e-02 | 9.06e-01 |
PKMTS METHYLATE HISTONE LYSINES | 49 | 6.27e-01 | -4.01e-02 | 8.33e-01 |
MISCELLANEOUS TRANSPORT AND BINDING EVENTS | 20 | 7.57e-01 | -4.00e-02 | 9.04e-01 |
NEGATIVE REGULATION OF MET ACTIVITY | 20 | 7.57e-01 | 3.99e-02 | 9.04e-01 |
TRAF6 MEDIATED IRF7 ACTIVATION | 15 | 7.90e-01 | 3.97e-02 | 9.14e-01 |
COPII MEDIATED VESICLE TRANSPORT | 66 | 5.77e-01 | -3.97e-02 | 7.97e-01 |
MRNA DECAY BY 3 TO 5 EXORIBONUCLEASE | 15 | 7.91e-01 | -3.95e-02 | 9.14e-01 |
LEISHMANIA INFECTION | 197 | 3.41e-01 | 3.94e-02 | 6.27e-01 |
NICOTINAMIDE SALVAGING | 16 | 7.86e-01 | -3.93e-02 | 9.13e-01 |
G2 M DNA DAMAGE CHECKPOINT | 66 | 5.84e-01 | -3.90e-02 | 7.98e-01 |
PCNA DEPENDENT LONG PATCH BASE EXCISION REPAIR | 20 | 7.63e-01 | 3.89e-02 | 9.05e-01 |
NR1H3 NR1H2 REGULATE GENE EXPRESSION LINKED TO CHOLESTEROL TRANSPORT AND EFFLUX | 32 | 7.03e-01 | -3.89e-02 | 8.80e-01 |
PTK6 REGULATES RHO GTPASES RAS GTPASE AND MAP KINASES | 13 | 8.09e-01 | -3.86e-02 | 9.19e-01 |
CELLULAR SENESCENCE | 143 | 4.26e-01 | -3.86e-02 | 6.99e-01 |
CASPASE MEDIATED CLEAVAGE OF CYTOSKELETAL PROTEINS | 12 | 8.18e-01 | -3.85e-02 | 9.24e-01 |
SELECTIVE AUTOPHAGY | 72 | 5.73e-01 | 3.84e-02 | 7.97e-01 |
COMMON PATHWAY OF FIBRIN CLOT FORMATION | 11 | 8.26e-01 | -3.83e-02 | 9.28e-01 |
EPHB MEDIATED FORWARD SIGNALING | 42 | 6.68e-01 | 3.83e-02 | 8.60e-01 |
RAC3 GTPASE CYCLE | 89 | 5.33e-01 | 3.82e-02 | 7.71e-01 |
INTERLEUKIN 20 FAMILY SIGNALING | 14 | 8.05e-01 | 3.81e-02 | 9.18e-01 |
ION TRANSPORT BY P TYPE ATPASES | 49 | 6.45e-01 | -3.81e-02 | 8.45e-01 |
REGULATION OF FZD BY UBIQUITINATION | 20 | 7.68e-01 | 3.80e-02 | 9.06e-01 |
LDL CLEARANCE | 16 | 7.92e-01 | -3.80e-02 | 9.14e-01 |
AUTOPHAGY | 139 | 4.41e-01 | 3.79e-02 | 7.12e-01 |
TELOMERE C STRAND LAGGING STRAND SYNTHESIS | 33 | 7.07e-01 | 3.78e-02 | 8.82e-01 |
ADAPTIVE IMMUNE SYSTEM | 603 | 1.16e-01 | 3.76e-02 | 3.57e-01 |
MICRORNA MIRNA BIOGENESIS | 24 | 7.53e-01 | 3.71e-02 | 9.04e-01 |
FCGAMMA RECEPTOR FCGR DEPENDENT PHAGOCYTOSIS | 82 | 5.62e-01 | -3.71e-02 | 7.86e-01 |
SIGNALING BY NODAL | 15 | 8.04e-01 | -3.70e-02 | 9.18e-01 |
SARS COV INFECTIONS | 140 | 4.54e-01 | 3.67e-02 | 7.21e-01 |
ERBB2 ACTIVATES PTK6 SIGNALING | 11 | 8.35e-01 | 3.62e-02 | 9.32e-01 |
REGULATED NECROSIS | 46 | 6.72e-01 | 3.61e-02 | 8.63e-01 |
TRANSCRIPTIONAL REGULATION BY TP53 | 341 | 2.55e-01 | -3.59e-02 | 5.51e-01 |
SEROTONIN RECEPTORS | 10 | 8.47e-01 | -3.52e-02 | 9.38e-01 |
FLT3 SIGNALING IN DISEASE | 28 | 7.49e-01 | 3.49e-02 | 9.04e-01 |
TELOMERE C STRAND SYNTHESIS INITIATION | 13 | 8.28e-01 | 3.48e-02 | 9.29e-01 |
BMAL1 CLOCK NPAS2 ACTIVATES CIRCADIAN GENE EXPRESSION | 26 | 7.61e-01 | 3.45e-02 | 9.04e-01 |
HCMV INFECTION | 104 | 5.44e-01 | -3.45e-02 | 7.75e-01 |
TP53 REGULATES METABOLIC GENES | 85 | 5.84e-01 | 3.44e-02 | 7.98e-01 |
REGULATION OF TP53 ACTIVITY THROUGH METHYLATION | 18 | 8.01e-01 | -3.44e-02 | 9.16e-01 |
SUPPRESSION OF PHAGOSOMAL MATURATION | 12 | 8.37e-01 | -3.42e-02 | 9.33e-01 |
THE ROLE OF NEF IN HIV 1 REPLICATION AND DISEASE PATHOGENESIS | 27 | 7.59e-01 | 3.41e-02 | 9.04e-01 |
NEGATIVE REGULATION OF FLT3 | 14 | 8.25e-01 | 3.41e-02 | 9.28e-01 |
RNA POLYMERASE II TRANSCRIPTION TERMINATION | 65 | 6.36e-01 | 3.40e-02 | 8.39e-01 |
NUCLEAR RECEPTOR TRANSCRIPTION PATHWAY | 45 | 6.94e-01 | 3.39e-02 | 8.77e-01 |
RECOGNITION AND ASSOCIATION OF DNA GLYCOSYLASE WITH SITE CONTAINING AN AFFECTED PURINE | 23 | 7.78e-01 | 3.39e-02 | 9.09e-01 |
NEGATIVE REGULATION OF FGFR1 SIGNALING | 26 | 7.65e-01 | -3.39e-02 | 9.05e-01 |
TRANSPORT OF VITAMINS NUCLEOSIDES AND RELATED MOLECULES | 31 | 7.45e-01 | 3.38e-02 | 9.04e-01 |
FANCONI ANEMIA PATHWAY | 36 | 7.28e-01 | -3.36e-02 | 8.92e-01 |
RRNA MODIFICATION IN THE NUCLEUS AND CYTOSOL | 59 | 6.57e-01 | 3.35e-02 | 8.51e-01 |
NR1H2 AND NR1H3 MEDIATED SIGNALING | 38 | 7.23e-01 | 3.32e-02 | 8.90e-01 |
PRE NOTCH EXPRESSION AND PROCESSING | 64 | 6.46e-01 | -3.32e-02 | 8.46e-01 |
HSF1 DEPENDENT TRANSACTIVATION | 33 | 7.42e-01 | 3.31e-02 | 9.02e-01 |
N GLYCAN ANTENNAE ELONGATION | 15 | 8.25e-01 | 3.31e-02 | 9.28e-01 |
POST TRANSLATIONAL PROTEIN MODIFICATION | 1218 | 5.67e-02 | -3.27e-02 | 2.23e-01 |
PLASMA LIPOPROTEIN ASSEMBLY REMODELING AND CLEARANCE | 52 | 6.85e-01 | -3.25e-02 | 8.73e-01 |
SIGNALING BY NOTCH3 | 48 | 7.02e-01 | -3.19e-02 | 8.80e-01 |
CONSTITUTIVE SIGNALING BY LIGAND RESPONSIVE EGFR CANCER VARIANTS | 19 | 8.10e-01 | 3.19e-02 | 9.19e-01 |
GABA B RECEPTOR ACTIVATION | 39 | 7.30e-01 | -3.19e-02 | 8.92e-01 |
MHC CLASS II ANTIGEN PRESENTATION | 102 | 5.80e-01 | -3.17e-02 | 7.97e-01 |
INTERLEUKIN 27 SIGNALING | 10 | 8.62e-01 | -3.17e-02 | 9.44e-01 |
RUNX1 REGULATES GENES INVOLVED IN MEGAKARYOCYTE DIFFERENTIATION AND PLATELET FUNCTION | 51 | 6.96e-01 | 3.17e-02 | 8.77e-01 |
CHEMOKINE RECEPTORS BIND CHEMOKINES | 17 | 8.22e-01 | -3.15e-02 | 9.26e-01 |
PLATELET AGGREGATION PLUG FORMATION | 32 | 7.59e-01 | -3.14e-02 | 9.04e-01 |
NOTCH4 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 20 | 8.09e-01 | -3.13e-02 | 9.19e-01 |
GRB2 SOS PROVIDES LINKAGE TO MAPK SIGNALING FOR INTEGRINS | 12 | 8.52e-01 | 3.12e-02 | 9.41e-01 |
DNA DOUBLE STRAND BREAK RESPONSE | 53 | 6.96e-01 | -3.10e-02 | 8.77e-01 |
INTRA GOLGI AND RETROGRADE GOLGI TO ER TRAFFIC | 186 | 4.66e-01 | -3.10e-02 | 7.24e-01 |
INTEGRIN SIGNALING | 24 | 7.94e-01 | 3.08e-02 | 9.14e-01 |
FLT3 SIGNALING | 36 | 7.49e-01 | -3.08e-02 | 9.04e-01 |
RESOLUTION OF AP SITES VIA THE MULTIPLE NUCLEOTIDE PATCH REPLACEMENT PATHWAY | 24 | 7.95e-01 | -3.07e-02 | 9.14e-01 |
G ALPHA S SIGNALLING EVENTS | 105 | 5.88e-01 | 3.06e-02 | 8.02e-01 |
SIGNALING BY FGFR1 | 43 | 7.29e-01 | -3.05e-02 | 8.92e-01 |
M PHASE | 342 | 3.35e-01 | -3.04e-02 | 6.20e-01 |
NOTCH1 INTRACELLULAR DOMAIN REGULATES TRANSCRIPTION | 48 | 7.17e-01 | -3.03e-02 | 8.88e-01 |
CONSTITUTIVE SIGNALING BY ABERRANT PI3K IN CANCER | 61 | 6.85e-01 | -3.00e-02 | 8.73e-01 |
GLUCONEOGENESIS | 27 | 7.88e-01 | -2.99e-02 | 9.13e-01 |
PI 3K CASCADE FGFR4 | 12 | 8.59e-01 | 2.97e-02 | 9.42e-01 |
SIGNALING BY ERBB2 IN CANCER | 25 | 8.00e-01 | 2.93e-02 | 9.16e-01 |
ACTIVATED TAK1 MEDIATES P38 MAPK ACTIVATION | 23 | 8.08e-01 | -2.92e-02 | 9.19e-01 |
NICOTINATE METABOLISM | 25 | 8.01e-01 | 2.92e-02 | 9.16e-01 |
REGULATION OF GENE EXPRESSION BY HYPOXIA INDUCIBLE FACTOR | 10 | 8.74e-01 | 2.91e-02 | 9.51e-01 |
SIGNALING BY ERBB2 ECD MUTANTS | 16 | 8.42e-01 | 2.87e-02 | 9.36e-01 |
PERK REGULATES GENE EXPRESSION | 28 | 7.93e-01 | -2.87e-02 | 9.14e-01 |
SIGNALING BY RECEPTOR TYROSINE KINASES | 466 | 2.93e-01 | -2.85e-02 | 5.89e-01 |
TGF BETA RECEPTOR SIGNALING ACTIVATES SMADS | 32 | 7.82e-01 | -2.82e-02 | 9.11e-01 |
G ALPHA I SIGNALLING EVENTS | 208 | 4.89e-01 | -2.78e-02 | 7.45e-01 |
CELL CYCLE MITOTIC | 475 | 3.05e-01 | -2.76e-02 | 6.03e-01 |
REGULATION OF TP53 EXPRESSION AND DEGRADATION | 35 | 7.80e-01 | -2.73e-02 | 9.10e-01 |
GLUCAGON SIGNALING IN METABOLIC REGULATION | 29 | 8.02e-01 | 2.70e-02 | 9.16e-01 |
SIGNALING BY BRAF AND RAF FUSIONS | 60 | 7.20e-01 | -2.68e-02 | 8.90e-01 |
REGULATION OF LIPID METABOLISM BY PPARALPHA | 108 | 6.33e-01 | -2.66e-02 | 8.36e-01 |
CELLULAR HEXOSE TRANSPORT | 11 | 8.80e-01 | 2.62e-02 | 9.53e-01 |
SIGNALING BY FLT3 ITD AND TKD MUTANTS | 16 | 8.56e-01 | -2.62e-02 | 9.41e-01 |
SLC MEDIATED TRANSMEMBRANE TRANSPORT | 192 | 5.35e-01 | 2.60e-02 | 7.71e-01 |
SURFACTANT METABOLISM | 16 | 8.58e-01 | 2.59e-02 | 9.42e-01 |
EGFR DOWNREGULATION | 28 | 8.13e-01 | 2.59e-02 | 9.20e-01 |
DUAL INCISION IN GG NER | 40 | 7.78e-01 | -2.58e-02 | 9.09e-01 |
TRANSPORT OF SMALL MOLECULES | 581 | 2.90e-01 | 2.58e-02 | 5.85e-01 |
TRANSLESION SYNTHESIS BY POLK | 17 | 8.55e-01 | 2.56e-02 | 9.41e-01 |
RNA POLYMERASE II TRANSCRIPTION | 1089 | 1.66e-01 | -2.50e-02 | 4.37e-01 |
CHOLESTEROL BIOSYNTHESIS | 24 | 8.32e-01 | -2.50e-02 | 9.30e-01 |
SIGNALING BY GPCR | 499 | 3.43e-01 | -2.49e-02 | 6.27e-01 |
ONCOGENIC MAPK SIGNALING | 77 | 7.11e-01 | 2.44e-02 | 8.85e-01 |
GASTRIN CREB SIGNALLING PATHWAY VIA PKC AND MAPK | 17 | 8.64e-01 | 2.41e-02 | 9.45e-01 |
AMINO ACIDS REGULATE MTORC1 | 51 | 7.71e-01 | -2.36e-02 | 9.06e-01 |
RHOG GTPASE CYCLE | 73 | 7.30e-01 | 2.34e-02 | 8.92e-01 |
TETRAHYDROBIOPTERIN BH4 SYNTHESIS RECYCLING SALVAGE AND REGULATION | 10 | 8.98e-01 | -2.34e-02 | 9.57e-01 |
OVARIAN TUMOR DOMAIN PROTEASES | 36 | 8.10e-01 | -2.32e-02 | 9.19e-01 |
KILLING MECHANISMS | 10 | 8.99e-01 | 2.31e-02 | 9.57e-01 |
SIGNALING BY TGFB FAMILY MEMBERS | 97 | 6.96e-01 | -2.30e-02 | 8.77e-01 |
INTERFERON SIGNALING | 164 | 6.13e-01 | -2.29e-02 | 8.24e-01 |
REGULATION OF SIGNALING BY CBL | 22 | 8.53e-01 | 2.29e-02 | 9.41e-01 |
TRAF3 DEPENDENT IRF ACTIVATION PATHWAY | 13 | 8.88e-01 | 2.25e-02 | 9.56e-01 |
CD209 DC SIGN SIGNALING | 18 | 8.69e-01 | 2.25e-02 | 9.49e-01 |
SEMAPHORIN INTERACTIONS | 64 | 7.56e-01 | -2.25e-02 | 9.04e-01 |
FORMATION OF RNA POL II ELONGATION COMPLEX | 57 | 7.69e-01 | 2.24e-02 | 9.06e-01 |
ROLE OF PHOSPHOLIPIDS IN PHAGOCYTOSIS | 22 | 8.55e-01 | -2.24e-02 | 9.41e-01 |
DOWNREGULATION OF ERBB2 SIGNALING | 28 | 8.39e-01 | 2.21e-02 | 9.35e-01 |
INTEGRATION OF ENERGY METABOLISM | 98 | 7.06e-01 | -2.20e-02 | 8.82e-01 |
MECP2 REGULATES NEURONAL RECEPTORS AND CHANNELS | 18 | 8.72e-01 | -2.19e-02 | 9.51e-01 |
INHIBITION OF REPLICATION INITIATION OF DAMAGED DNA BY RB1 E2F1 | 13 | 8.91e-01 | 2.19e-02 | 9.57e-01 |
SYNTHESIS OF SUBSTRATES IN N GLYCAN BIOSYTHESIS | 62 | 7.67e-01 | 2.18e-02 | 9.05e-01 |
MAPK FAMILY SIGNALING CASCADES | 287 | 5.26e-01 | 2.18e-02 | 7.70e-01 |
HIV TRANSCRIPTION ELONGATION | 42 | 8.11e-01 | 2.13e-02 | 9.19e-01 |
MET ACTIVATES PTK2 SIGNALING | 29 | 8.43e-01 | -2.13e-02 | 9.36e-01 |
CELL CYCLE | 590 | 3.88e-01 | -2.09e-02 | 6.67e-01 |
CELL CYCLE CHECKPOINTS | 243 | 5.81e-01 | 2.06e-02 | 7.97e-01 |
MET ACTIVATES RAP1 AND RAC1 | 10 | 9.10e-01 | -2.06e-02 | 9.60e-01 |
RUNX2 REGULATES OSTEOBLAST DIFFERENTIATION | 23 | 8.65e-01 | 2.05e-02 | 9.45e-01 |
CARGO CONCENTRATION IN THE ER | 31 | 8.44e-01 | -2.05e-02 | 9.36e-01 |
VLDLR INTERNALISATION AND DEGRADATION | 12 | 9.02e-01 | 2.04e-02 | 9.57e-01 |
OXIDATIVE STRESS INDUCED SENESCENCE | 79 | 7.60e-01 | -1.99e-02 | 9.04e-01 |
NOTCH HLH TRANSCRIPTION PATHWAY | 28 | 8.55e-01 | -1.99e-02 | 9.41e-01 |
TRANSLATION OF SARS COV 1 STRUCTURAL PROTEINS | 28 | 8.56e-01 | 1.98e-02 | 9.41e-01 |
CD28 DEPENDENT PI3K AKT SIGNALING | 21 | 8.78e-01 | -1.94e-02 | 9.52e-01 |
CYCLIN D ASSOCIATED EVENTS IN G1 | 45 | 8.22e-01 | 1.94e-02 | 9.26e-01 |
ALPHA PROTEIN KINASE 1 SIGNALING PATHWAY | 11 | 9.13e-01 | 1.91e-02 | 9.60e-01 |
TP53 REGULATES TRANSCRIPTION OF CELL DEATH GENES | 37 | 8.44e-01 | -1.87e-02 | 9.36e-01 |
PROCESSIVE SYNTHESIS ON THE C STRAND OF THE TELOMERE | 19 | 8.89e-01 | 1.86e-02 | 9.56e-01 |
RESPONSE OF EIF2AK1 HRI TO HEME DEFICIENCY | 15 | 9.04e-01 | -1.81e-02 | 9.57e-01 |
APOPTOTIC EXECUTION PHASE | 45 | 8.35e-01 | 1.80e-02 | 9.32e-01 |
CONSTITUTIVE SIGNALING BY EGFRVIII | 15 | 9.07e-01 | -1.74e-02 | 9.58e-01 |
PI3K AKT SIGNALING IN CANCER | 88 | 7.78e-01 | -1.74e-02 | 9.09e-01 |
RNA POLYMERASE III TRANSCRIPTION INITIATION FROM TYPE 3 PROMOTER | 28 | 8.74e-01 | -1.73e-02 | 9.51e-01 |
MEIOTIC RECOMBINATION | 38 | 8.54e-01 | 1.72e-02 | 9.41e-01 |
PI 3K CASCADE FGFR3 | 13 | 9.15e-01 | 1.72e-02 | 9.60e-01 |
PI3K EVENTS IN ERBB2 SIGNALING | 15 | 9.11e-01 | -1.67e-02 | 9.60e-01 |
COPI DEPENDENT GOLGI TO ER RETROGRADE TRAFFIC | 87 | 7.90e-01 | 1.65e-02 | 9.14e-01 |
SMAD2 SMAD3 SMAD4 HETEROTRIMER REGULATES TRANSCRIPTION | 31 | 8.75e-01 | 1.63e-02 | 9.51e-01 |
RNA POLYMERASE III CHAIN ELONGATION | 18 | 9.10e-01 | 1.54e-02 | 9.60e-01 |
DISASSEMBLY OF THE DESTRUCTION COMPLEX AND RECRUITMENT OF AXIN TO THE MEMBRANE | 26 | 8.93e-01 | -1.52e-02 | 9.57e-01 |
TRANSCRIPTION OF THE HIV GENOME | 67 | 8.32e-01 | 1.50e-02 | 9.30e-01 |
ESTROGEN DEPENDENT GENE EXPRESSION | 104 | 7.97e-01 | 1.46e-02 | 9.16e-01 |
GLOBAL GENOME NUCLEOTIDE EXCISION REPAIR GG NER | 83 | 8.21e-01 | -1.44e-02 | 9.26e-01 |
ANTIGEN PROCESSING UBIQUITINATION PROTEASOME DEGRADATION | 286 | 6.79e-01 | -1.43e-02 | 8.69e-01 |
UB SPECIFIC PROCESSING PROTEASES | 167 | 7.54e-01 | 1.41e-02 | 9.04e-01 |
SIGNALING BY SCF KIT | 41 | 8.78e-01 | 1.38e-02 | 9.52e-01 |
NEGATIVE REGULATION OF FGFR2 SIGNALING | 27 | 9.01e-01 | -1.38e-02 | 9.57e-01 |
ER QUALITY CONTROL COMPARTMENT ERQC | 21 | 9.14e-01 | 1.36e-02 | 9.60e-01 |
RHO GTPASE EFFECTORS | 252 | 7.15e-01 | -1.34e-02 | 8.86e-01 |
BASE EXCISION REPAIR AP SITE FORMATION | 30 | 9.00e-01 | -1.33e-02 | 9.57e-01 |
RAF INDEPENDENT MAPK1 3 ACTIVATION | 21 | 9.17e-01 | 1.31e-02 | 9.61e-01 |
SYNTHESIS OF PYROPHOSPHATES IN THE CYTOSOL | 10 | 9.43e-01 | 1.30e-02 | 9.77e-01 |
MITOTIC G2 G2 M PHASES | 184 | 7.61e-01 | -1.30e-02 | 9.04e-01 |
FORMATION OF INCISION COMPLEX IN GG NER | 43 | 8.83e-01 | -1.30e-02 | 9.53e-01 |
SIGNALING BY NOTCH1 | 75 | 8.47e-01 | -1.29e-02 | 9.38e-01 |
MYD88 INDEPENDENT TLR4 CASCADE | 93 | 8.31e-01 | 1.28e-02 | 9.30e-01 |
IRAK2 MEDIATED ACTIVATION OF TAK1 COMPLEX | 10 | 9.45e-01 | 1.25e-02 | 9.77e-01 |
RIPK1 MEDIATED REGULATED NECROSIS | 25 | 9.14e-01 | -1.25e-02 | 9.60e-01 |
O LINKED GLYCOSYLATION OF MUCINS | 39 | 8.94e-01 | -1.24e-02 | 9.57e-01 |
CYCLIN A B1 B2 ASSOCIATED EVENTS DURING G2 M TRANSITION | 22 | 9.21e-01 | -1.22e-02 | 9.64e-01 |
SIGNALING BY NOTCH1 PEST DOMAIN MUTANTS IN CANCER | 59 | 8.73e-01 | 1.21e-02 | 9.51e-01 |
PI 3K CASCADE FGFR2 | 16 | 9.33e-01 | -1.21e-02 | 9.74e-01 |
TP53 REGULATES TRANSCRIPTION OF GENES INVOLVED IN G2 CELL CYCLE ARREST | 15 | 9.37e-01 | -1.19e-02 | 9.75e-01 |
RNA POLYMERASE III TRANSCRIPTION | 41 | 8.96e-01 | -1.18e-02 | 9.57e-01 |
TOLL LIKE RECEPTOR CASCADES | 138 | 8.11e-01 | 1.18e-02 | 9.19e-01 |
PLATELET SENSITIZATION BY LDL | 15 | 9.37e-01 | -1.18e-02 | 9.75e-01 |
RHOC GTPASE CYCLE | 73 | 8.63e-01 | -1.17e-02 | 9.44e-01 |
SCAVENGING OF HEME FROM PLASMA | 10 | 9.49e-01 | -1.17e-02 | 9.77e-01 |
TRNA MODIFICATION IN THE NUCLEUS AND CYTOSOL | 43 | 8.95e-01 | -1.16e-02 | 9.57e-01 |
SIGNALING BY FGFR IN DISEASE | 55 | 8.82e-01 | -1.16e-02 | 9.53e-01 |
HEMOSTASIS | 473 | 6.70e-01 | 1.15e-02 | 8.62e-01 |
GOLGI TO ER RETROGRADE TRANSPORT | 120 | 8.32e-01 | -1.12e-02 | 9.30e-01 |
SENSORY PROCESSING OF SOUND BY OUTER HAIR CELLS OF THE COCHLEA | 42 | 9.01e-01 | -1.11e-02 | 9.57e-01 |
SUMOYLATION OF TRANSCRIPTION COFACTORS | 42 | 9.01e-01 | -1.11e-02 | 9.57e-01 |
PROCESSING OF CAPPED INTRON CONTAINING PRE MRNA | 237 | 7.72e-01 | 1.09e-02 | 9.06e-01 |
TRANSLESION SYNTHESIS BY POLH | 19 | 9.34e-01 | -1.09e-02 | 9.74e-01 |
ACTIVATION OF GENE EXPRESSION BY SREBF SREBP | 43 | 9.03e-01 | 1.08e-02 | 9.57e-01 |
REGULATION OF RUNX1 EXPRESSION AND ACTIVITY | 17 | 9.42e-01 | 1.02e-02 | 9.77e-01 |
HDACS DEACETYLATE HISTONES | 47 | 9.04e-01 | -1.02e-02 | 9.57e-01 |
HIV ELONGATION ARREST AND RECOVERY | 32 | 9.27e-01 | 9.34e-03 | 9.70e-01 |
RAC2 GTPASE CYCLE | 87 | 8.82e-01 | 9.19e-03 | 9.53e-01 |
ZINC TRANSPORTERS | 16 | 9.51e-01 | -8.92e-03 | 9.77e-01 |
TRANSLOCATION OF SLC2A4 GLUT4 TO THE PLASMA MEMBRANE | 63 | 9.05e-01 | -8.72e-03 | 9.57e-01 |
INTRACELLULAR SIGNALING BY SECOND MESSENGERS | 282 | 8.02e-01 | -8.72e-03 | 9.16e-01 |
METABOLISM OF WATER SOLUBLE VITAMINS AND COFACTORS | 103 | 8.86e-01 | 8.17e-03 | 9.55e-01 |
POTENTIAL THERAPEUTICS FOR SARS | 77 | 9.03e-01 | -8.06e-03 | 9.57e-01 |
P130CAS LINKAGE TO MAPK SIGNALING FOR INTEGRINS | 12 | 9.63e-01 | -7.73e-03 | 9.84e-01 |
NEGATIVE REGULATION OF FGFR4 SIGNALING | 23 | 9.49e-01 | 7.69e-03 | 9.77e-01 |
NOD1 2 SIGNALING PATHWAY | 34 | 9.39e-01 | 7.57e-03 | 9.75e-01 |
POST CHAPERONIN TUBULIN FOLDING PATHWAY | 17 | 9.57e-01 | -7.50e-03 | 9.82e-01 |
AGGREPHAGY | 35 | 9.40e-01 | 7.41e-03 | 9.75e-01 |
CONDENSATION OF PROPHASE CHROMOSOMES | 28 | 9.47e-01 | -7.21e-03 | 9.77e-01 |
MITOCHONDRIAL CALCIUM ION TRANSPORT | 23 | 9.58e-01 | -6.42e-03 | 9.82e-01 |
MTOR SIGNALLING | 40 | 9.44e-01 | -6.40e-03 | 9.77e-01 |
COSTIMULATION BY THE CD28 FAMILY | 51 | 9.37e-01 | 6.37e-03 | 9.75e-01 |
CLASS I PEROXISOMAL MEMBRANE PROTEIN IMPORT | 20 | 9.61e-01 | 6.35e-03 | 9.83e-01 |
EPH EPHRIN SIGNALING | 92 | 9.17e-01 | -6.31e-03 | 9.61e-01 |
INLB MEDIATED ENTRY OF LISTERIA MONOCYTOGENES INTO HOST CELL | 15 | 9.68e-01 | -5.93e-03 | 9.84e-01 |
MET PROMOTES CELL MOTILITY | 39 | 9.50e-01 | -5.76e-03 | 9.77e-01 |
SPRY REGULATION OF FGF SIGNALING | 16 | 9.68e-01 | 5.76e-03 | 9.84e-01 |
NEPHRIN FAMILY INTERACTIONS | 23 | 9.62e-01 | -5.72e-03 | 9.84e-01 |
INTEGRIN CELL SURFACE INTERACTIONS | 71 | 9.34e-01 | -5.65e-03 | 9.74e-01 |
METABOLISM OF CARBOHYDRATES | 258 | 8.77e-01 | -5.63e-03 | 9.52e-01 |
OTHER INTERLEUKIN SIGNALING | 21 | 9.65e-01 | -5.58e-03 | 9.84e-01 |
TRANSCRIPTION COUPLED NUCLEOTIDE EXCISION REPAIR TC NER | 77 | 9.33e-01 | 5.52e-03 | 9.74e-01 |
FREE FATTY ACIDS REGULATE INSULIN SECRETION | 10 | 9.76e-01 | -5.44e-03 | 9.86e-01 |
ACTIVATION OF ATR IN RESPONSE TO REPLICATION STRESS | 33 | 9.58e-01 | 5.27e-03 | 9.82e-01 |
ORGANELLE BIOGENESIS AND MAINTENANCE | 284 | 8.81e-01 | -5.18e-03 | 9.53e-01 |
METAL ION SLC TRANSPORTERS | 25 | 9.68e-01 | -4.68e-03 | 9.84e-01 |
LISTERIA MONOCYTOGENES ENTRY INTO HOST CELLS | 20 | 9.71e-01 | 4.64e-03 | 9.85e-01 |
TRNA AMINOACYLATION | 42 | 9.59e-01 | 4.54e-03 | 9.83e-01 |
DEUBIQUITINATION | 241 | 9.04e-01 | -4.54e-03 | 9.57e-01 |
PROCESSING OF DNA DOUBLE STRAND BREAK ENDS | 71 | 9.49e-01 | 4.39e-03 | 9.77e-01 |
BIOSYNTHESIS OF THE N GLYCAN PRECURSOR DOLICHOL LIPID LINKED OLIGOSACCHARIDE LLO AND TRANSFER TO A NASCENT PROTEIN | 76 | 9.49e-01 | -4.23e-03 | 9.77e-01 |
RNA POLYMERASE III TRANSCRIPTION TERMINATION | 23 | 9.72e-01 | 4.21e-03 | 9.85e-01 |
ASPARAGINE N LINKED GLYCOSYLATION | 285 | 9.05e-01 | -4.10e-03 | 9.57e-01 |
AQUAPORIN MEDIATED TRANSPORT | 39 | 9.72e-01 | -3.24e-03 | 9.85e-01 |
CIRCADIAN CLOCK | 68 | 9.65e-01 | -3.08e-03 | 9.84e-01 |
REGULATION OF INSULIN SECRETION | 71 | 9.66e-01 | -2.91e-03 | 9.84e-01 |
CONSTITUTIVE SIGNALING BY AKT1 E17K IN CANCER | 26 | 9.81e-01 | -2.73e-03 | 9.88e-01 |
RNA POLYMERASE III TRANSCRIPTION INITIATION FROM TYPE 1 PROMOTER | 28 | 9.81e-01 | 2.58e-03 | 9.88e-01 |
FCERI MEDIATED CA 2 MOBILIZATION | 26 | 9.82e-01 | -2.58e-03 | 9.88e-01 |
FORMATION OF TC NER PRE INCISION COMPLEX | 53 | 9.75e-01 | -2.49e-03 | 9.86e-01 |
BASE EXCISION REPAIR | 57 | 9.74e-01 | -2.45e-03 | 9.86e-01 |
RHO GTPASES ACTIVATE WASPS AND WAVES | 36 | 9.81e-01 | 2.32e-03 | 9.88e-01 |
PARASITE INFECTION | 55 | 9.77e-01 | 2.22e-03 | 9.86e-01 |
NUCLEOTIDE EXCISION REPAIR | 109 | 9.70e-01 | 2.09e-03 | 9.85e-01 |
NEGATIVE REGULATION OF FGFR3 SIGNALING | 24 | 9.88e-01 | 1.84e-03 | 9.93e-01 |
DEPOLYMERISATION OF THE NUCLEAR LAMINA | 13 | 9.94e-01 | -1.27e-03 | 9.97e-01 |
METABOLISM OF PORPHYRINS | 19 | 9.95e-01 | -8.91e-04 | 9.97e-01 |
PYRUVATE METABOLISM AND CITRIC ACID TCA CYCLE | 51 | 9.93e-01 | -6.68e-04 | 9.97e-01 |
DOWNSTREAM SIGNALING OF ACTIVATED FGFR1 | 25 | 9.96e-01 | -5.18e-04 | 9.98e-01 |
DNA DAMAGE BYPASS | 47 | 9.98e-01 | -2.16e-04 | 9.99e-01 |
TRANSPORT OF INORGANIC CATIONS ANIONS AND AMINO ACIDS OLIGOPEPTIDES | 86 | 9.99e-01 | 6.15e-05 | 9.99e-01 |
EUKARYOTIC TRANSLATION ELONGATION
304 | |
---|---|
set | EUKARYOTIC TRANSLATION ELONGATION |
setSize | 87 |
pANOVA | 5.17e-34 |
s.dist | 0.753 |
p.adjustANOVA | 6.09e-31 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Eef1d | 7126 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Eef1b2 | 6955 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Rpl31 | 6769 |
Rps17 | 6718 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Eef1a1 | 6293 |
Rpl30 | 6287 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Rpl10a | 6104 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Rpl11 | 5763 |
Rps26 | 5704 |
Eef1g | 5692 |
Rpl22 | 5586 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Eef2 | 4631 |
Rpl6 | 4586 |
Rps18 | 4493 |
Rpl7a | 4325 |
Rpl28 | 4167 |
Rps7 | 3272 |
Rps2 | 2142 |
Eef1a2 | -4831 |
SRP DEPENDENT COTRANSLATIONAL PROTEIN TARGETING TO MEMBRANE
1011 | |
---|---|
set | SRP DEPENDENT COTRANSLATIONAL PROTEIN TARGETING TO MEMBRANE |
setSize | 106 |
pANOVA | 4.2e-33 |
s.dist | 0.673 |
p.adjustANOVA | 2.48e-30 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Sec61g | 8103 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Ssr3 | 7839 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Spcs1 | 7679 |
Rps27a | 7649 |
Sec61b | 7615 |
Rps9 | 7590 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Sec61g | 8103 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Ssr3 | 7839 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Spcs1 | 7679 |
Rps27a | 7649 |
Sec61b | 7615 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Tram1 | 6779 |
Rpl31 | 6769 |
Rps17 | 6718 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Ssr4 | 6528 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Rpl10a | 6104 |
Srp19 | 5926 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Rpl11 | 5763 |
Rps26 | 5704 |
Rpl22 | 5586 |
Rpn2 | 5568 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Sec11c | 5450 |
Spcs2 | 4940 |
Rpl12 | 4902 |
Ssr2 | 4843 |
Rpl29 | 4827 |
Rpl6 | 4586 |
Rps18 | 4493 |
Rpl7a | 4325 |
Srp9 | 4190 |
Rpl28 | 4167 |
Rpn1 | 3417 |
Rps7 | 3272 |
Sec11a | 3014 |
Ddost | 2886 |
Srp14 | 2675 |
Srp54a | 2546 |
Rps2 | 2142 |
Sec61a1 | 507 |
Srp68 | 157 |
Srpr | 63 |
Spcs3 | -1013 |
Ssr1 | -1075 |
Srp72 | -1845 |
Srprb | -3749 |
Sec61a2 | -5449 |
RESPONSE OF EIF2AK4 GCN2 TO AMINO ACID DEFICIENCY
838 | |
---|---|
set | RESPONSE OF EIF2AK4 GCN2 TO AMINO ACID DEFICIENCY |
setSize | 95 |
pANOVA | 7.19e-28 |
s.dist | 0.649 |
p.adjustANOVA | 1.69e-25 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Rpl31 | 6769 |
Rps17 | 6718 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Rpl10a | 6104 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Rpl11 | 5763 |
Rps26 | 5704 |
Rpl22 | 5586 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Rpl6 | 4586 |
Rps18 | 4493 |
Rpl7a | 4325 |
Rpl28 | 4167 |
Ddit3 | 4079 |
Eif2s3x | 3868 |
Eif2s2 | 3836 |
Rps7 | 3272 |
Trib3 | 2829 |
Impact | 2366 |
Rps2 | 2142 |
Gcn1 | 1960 |
Atf3 | 1510 |
Atf4 | -535 |
Cebpg | -982 |
Eif2s1 | -2147 |
Cebpb | -2829 |
Atf2 | -6234 |
Asns | -6355 |
Eif2ak4 | -7338 |
EUKARYOTIC TRANSLATION INITIATION
305 | |
---|---|
set | EUKARYOTIC TRANSLATION INITIATION |
setSize | 114 |
pANOVA | 5.73e-31 |
s.dist | 0.627 |
p.adjustANOVA | 1.69e-28 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Eif3f | 8192 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Eif4a1 | 7790 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Eif3j2 | 7627 |
Rps9 | 7590 |
Rps3 | 7580 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Eif3f | 8192 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Eif4a1 | 7790 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Eif3j2 | 7627 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Eif3b | 7244 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Rpl31 | 6769 |
Rps17 | 6718 |
Eif3l | 6651 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Rps4x | 6515 |
Rpl35a | 6486 |
Eif2b5 | 6485 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Eif3m | 6107 |
Rpl10a | 6104 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Eif2b4 | 5807 |
Rpl11 | 5763 |
Eif3e | 5752 |
Rps26 | 5704 |
Rpl22 | 5586 |
Eif3d | 5585 |
Pabpc1 | 5561 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Eif3i | 5417 |
Eif3k | 5048 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Rpl6 | 4586 |
Eif4ebp1 | 4502 |
Rps18 | 4493 |
Rpl7a | 4325 |
Eif3h | 4198 |
Rpl28 | 4167 |
Eif2s3x | 3868 |
Eif2s2 | 3836 |
Eif4e | 3718 |
Rps7 | 3272 |
Rps2 | 2142 |
Eif3g | 2060 |
Eif2b2 | 1155 |
Eif5b | 996 |
Eif3j1 | 483 |
Eif2b3 | 454 |
Eif3c | 409 |
Eif4h | -21 |
Eif4a2 | -2042 |
Eif2s1 | -2147 |
Eif4g1 | -2238 |
Eif4b | -2681 |
Eif5 | -3721 |
Eif1ax | -5162 |
Eif2b1 | -5624 |
Eif3a | -5814 |
REGULATION OF COMMISSURAL AXON PATHFINDING BY SLIT AND ROBO
790 | |
---|---|
set | REGULATION OF COMMISSURAL AXON PATHFINDING BY SLIT AND ROBO |
setSize | 10 |
pANOVA | 0.000607 |
s.dist | -0.626 |
p.adjustANOVA | 0.00668 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Nell2 | -7515 |
Slit3 | -7299 |
Slit1 | -6971 |
Robo3 | -5968 |
Robo2 | -5163 |
Ntn1 | -4875 |
Slit2 | -4680 |
Src | -4511 |
Robo1 | -3169 |
Dcc | -1807 |
GeneID | Gene Rank |
---|---|
Nell2 | -7515 |
Slit3 | -7299 |
Slit1 | -6971 |
Robo3 | -5968 |
Robo2 | -5163 |
Ntn1 | -4875 |
Slit2 | -4680 |
Src | -4511 |
Robo1 | -3169 |
Dcc | -1807 |
YAP1 AND WWTR1 TAZ STIMULATED GENE EXPRESSION
1175 | |
---|---|
set | YAP1 AND WWTR1 TAZ STIMULATED GENE EXPRESSION |
setSize | 11 |
pANOVA | 0.000434 |
s.dist | 0.613 |
p.adjustANOVA | 0.00506 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Yap1 | 8609 |
Tead2 | 8387 |
Ccn2 | 8179 |
Tead1 | 7664 |
Hipk2 | 6423 |
Wwtr1 | 6387 |
Kat2b | 3880 |
Nppa | 3404 |
Runx2 | 3067 |
Tead3 | 2145 |
Hipk1 | 1118 |
GeneID | Gene Rank |
---|---|
Yap1 | 8609 |
Tead2 | 8387 |
Ccn2 | 8179 |
Tead1 | 7664 |
Hipk2 | 6423 |
Wwtr1 | 6387 |
Kat2b | 3880 |
Nppa | 3404 |
Runx2 | 3067 |
Tead3 | 2145 |
Hipk1 | 1118 |
ACTIVATION OF THE MRNA UPON BINDING OF THE CAP BINDING COMPLEX AND EIFS AND SUBSEQUENT BINDING TO 43S
28 | |
---|---|
set | ACTIVATION OF THE MRNA UPON BINDING OF THE CAP BINDING COMPLEX AND EIFS AND SUBSEQUENT BINDING TO 43S |
setSize | 59 |
pANOVA | 9.3e-15 |
s.dist | 0.583 |
p.adjustANOVA | 7.83e-13 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Eif3f | 8192 |
Rps21 | 8164 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rps19 | 7879 |
Rpsa | 7817 |
Eif4a1 | 7790 |
Rps27a | 7649 |
Eif3j2 | 7627 |
Rps9 | 7590 |
Rps3 | 7580 |
Fau | 7501 |
Rps6 | 7495 |
Rps3a1 | 7465 |
Rps5 | 7445 |
Rps8 | 7441 |
Rps10 | 7262 |
Eif3b | 7244 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Eif3f | 8192 |
Rps21 | 8164 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rps19 | 7879 |
Rpsa | 7817 |
Eif4a1 | 7790 |
Rps27a | 7649 |
Eif3j2 | 7627 |
Rps9 | 7590 |
Rps3 | 7580 |
Fau | 7501 |
Rps6 | 7495 |
Rps3a1 | 7465 |
Rps5 | 7445 |
Rps8 | 7441 |
Rps10 | 7262 |
Eif3b | 7244 |
Rps12 | 7243 |
Rps24 | 7233 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rps15 | 7046 |
Rps27l | 6993 |
Rps17 | 6718 |
Eif3l | 6651 |
Rps4x | 6515 |
Rps15a | 6467 |
Rps25 | 6316 |
Eif3m | 6107 |
Rps11 | 5845 |
Eif3e | 5752 |
Rps26 | 5704 |
Eif3d | 5585 |
Pabpc1 | 5561 |
Eif3i | 5417 |
Eif3k | 5048 |
Eif4ebp1 | 4502 |
Rps18 | 4493 |
Eif3h | 4198 |
Eif2s3x | 3868 |
Eif2s2 | 3836 |
Eif4e | 3718 |
Rps7 | 3272 |
Rps2 | 2142 |
Eif3g | 2060 |
Eif3j1 | 483 |
Eif3c | 409 |
Eif4h | -21 |
Eif4a2 | -2042 |
Eif2s1 | -2147 |
Eif4g1 | -2238 |
Eif4b | -2681 |
Eif1ax | -5162 |
Eif3a | -5814 |
SELENOAMINO ACID METABOLISM
912 | |
---|---|
set | SELENOAMINO ACID METABOLISM |
setSize | 109 |
pANOVA | 2.19e-25 |
s.dist | 0.577 |
p.adjustANOVA | 4.3e-23 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Ahcy | 8529 |
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Aimp2 | 7926 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
GeneID | Gene Rank |
---|---|
Ahcy | 8529 |
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Aimp2 | 7926 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Qars | 7260 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Cth | 7223 |
Rpl9 | 7222 |
Nnmt | 7216 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Rpl31 | 6769 |
Rps17 | 6718 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Aimp1 | 6269 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Rpl10a | 6104 |
Pstk | 6052 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Rpl11 | 5763 |
Rps26 | 5704 |
Eef1e1 | 5675 |
Rpl22 | 5586 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Sephs2 | 4914 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Rpl6 | 4586 |
Rps18 | 4493 |
Rpl7a | 4325 |
Rpl28 | 4167 |
Rps7 | 3272 |
Papss2 | 2964 |
Papss1 | 2388 |
Rps2 | 2142 |
Gsr | 1992 |
Cbs | 1301 |
Kars | 1026 |
Eefsec | 738 |
Scly | -2845 |
Hnmt | -2919 |
Mars1 | -3088 |
Rars | -3142 |
Gnmt | -3937 |
Eprs | -4254 |
Lars | -4583 |
Txnrd1 | -5187 |
Dars | -5548 |
Sepsecs | -6752 |
Secisbp2 | -7374 |
Iars | -7713 |
Sars | -8041 |
ACTIVATION OF THE AP 1 FAMILY OF TRANSCRIPTION FACTORS
27 | |
---|---|
set | ACTIVATION OF THE AP 1 FAMILY OF TRANSCRIPTION FACTORS |
setSize | 10 |
pANOVA | 0.00245 |
s.dist | -0.553 |
p.adjustANOVA | 0.0209 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Fos | -7884 |
Jun | -7597 |
Mapk8 | -7464 |
Atf2 | -6234 |
Mapk10 | -6196 |
Mapk9 | -5763 |
Mapk11 | -4772 |
Mapk1 | -2435 |
Mapk14 | -1644 |
Mapk3 | 4262 |
GeneID | Gene Rank |
---|---|
Fos | -7884 |
Jun | -7597 |
Mapk8 | -7464 |
Atf2 | -6234 |
Mapk10 | -6196 |
Mapk9 | -5763 |
Mapk11 | -4772 |
Mapk1 | -2435 |
Mapk14 | -1644 |
Mapk3 | 4262 |
FORMATION OF ATP BY CHEMIOSMOTIC COUPLING
328 | |
---|---|
set | FORMATION OF ATP BY CHEMIOSMOTIC COUPLING |
setSize | 18 |
pANOVA | 7.65e-05 |
s.dist | 0.538 |
p.adjustANOVA | 0.00135 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Atp5g2 | 8456 |
mt-Atp8 | 8089 |
Atp5e | 7418 |
Atp5k | 7190 |
Atp5l | 6506 |
mt-Atp6 | 6400 |
Atp5h | 6282 |
Atp5g3 | 6018 |
Atp5d | 5329 |
Atp5j2 | 3899 |
Atp5j | 3858 |
Atp5c1 | 3536 |
Atp5a1 | 3504 |
Atp5g1 | 3373 |
Atp5b | 2771 |
Dmac2l | 1974 |
Atp5pb | 826 |
Atp5o | 98 |
GeneID | Gene Rank |
---|---|
Atp5g2 | 8456 |
mt-Atp8 | 8089 |
Atp5e | 7418 |
Atp5k | 7190 |
Atp5l | 6506 |
mt-Atp6 | 6400 |
Atp5h | 6282 |
Atp5g3 | 6018 |
Atp5d | 5329 |
Atp5j2 | 3899 |
Atp5j | 3858 |
Atp5c1 | 3536 |
Atp5a1 | 3504 |
Atp5g1 | 3373 |
Atp5b | 2771 |
Dmac2l | 1974 |
Atp5pb | 826 |
Atp5o | 98 |
NONSENSE MEDIATED DECAY NMD
631 | |
---|---|
set | NONSENSE MEDIATED DECAY NMD |
setSize | 109 |
pANOVA | 3.03e-21 |
s.dist | 0.524 |
p.adjustANOVA | 3.96e-19 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Magoh | 7811 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Magoh | 7811 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Rpl31 | 6769 |
Rps17 | 6718 |
Ncbp1 | 6700 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Rbm8a | 6261 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Rpl10a | 6104 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Rpl11 | 5763 |
Rps26 | 5704 |
Rpl22 | 5586 |
Pabpc1 | 5561 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Pnrc2 | 5212 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Rpl6 | 4586 |
Rps18 | 4493 |
Rpl7a | 4325 |
Rpl28 | 4167 |
Eif4a3 | 3535 |
Rps7 | 3272 |
Rps2 | 2142 |
Smg1 | 277 |
Upf2 | -51 |
Smg7 | -287 |
Upf3b | -602 |
Upf3a | -1443 |
Rnps1 | -2025 |
Eif4g1 | -2238 |
Gspt1 | -2347 |
Ppp2ca | -2718 |
Upf1 | -2740 |
Smg5 | -3897 |
Casc3 | -4014 |
Ppp2r1a | -4368 |
Gspt2 | -4763 |
Dcp1a | -5082 |
Smg8 | -5249 |
Ncbp2 | -5267 |
Ppp2r2a | -5291 |
Etf1 | -5340 |
Smg6 | -6630 |
Magohb | -6732 |
Smg9 | -6775 |
COMPLEX I BIOGENESIS
171 | |
---|---|
set | COMPLEX I BIOGENESIS |
setSize | 56 |
pANOVA | 1.98e-11 |
s.dist | 0.518 |
p.adjustANOVA | 1.23e-09 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Ndufa2 | 7962 |
mt-Nd3 | 7922 |
Ndufb2 | 7695 |
mt-Nd6 | 7499 |
Ndufaf5 | 7375 |
Ndufa1 | 7277 |
Ndufs3 | 7184 |
mt-Nd5 | 7001 |
Ndufaf1 | 6860 |
Ndufb10 | 6725 |
Timmdc1 | 6715 |
mt-Nd4 | 6666 |
Ndufb11 | 6665 |
mt-Nd2 | 6656 |
Ndufaf7 | 6649 |
Ndufv1 | 6605 |
Ndufb9 | 6565 |
Ndufb1 | 6522 |
Ecsit | 6254 |
Ndufs6 | 6239 |
GeneID | Gene Rank |
---|---|
Ndufa2 | 7962 |
mt-Nd3 | 7922 |
Ndufb2 | 7695 |
mt-Nd6 | 7499 |
Ndufaf5 | 7375 |
Ndufa1 | 7277 |
Ndufs3 | 7184 |
mt-Nd5 | 7001 |
Ndufaf1 | 6860 |
Ndufb10 | 6725 |
Timmdc1 | 6715 |
mt-Nd4 | 6666 |
Ndufb11 | 6665 |
mt-Nd2 | 6656 |
Ndufaf7 | 6649 |
Ndufv1 | 6605 |
Ndufb9 | 6565 |
Ndufb1 | 6522 |
Ecsit | 6254 |
Ndufs6 | 6239 |
mt-Nd1 | 6157 |
Ndufa3 | 6040 |
Ndufaf6 | 6023 |
Ndufb8 | 6022 |
Ndufa7 | 5942 |
Ndufc2 | 5918 |
Ndufc1 | 5901 |
Ndufb4 | 5866 |
Ndufa6 | 5748 |
Ndufab1 | 5530 |
Ndufs5 | 5395 |
Ndufa13 | 5379 |
Ndufa11 | 5151 |
Ndufa5 | 5142 |
Ndufb7 | 4961 |
Ndufb6 | 4787 |
Ndufb5 | 4716 |
Ndufaf3 | 4394 |
Ndufs7 | 4135 |
Nubpl | 3927 |
Ndufs2 | 3776 |
Ndufa12 | 3660 |
Ndufs4 | 3558 |
Ndufa8 | 3297 |
Ndufv3 | 3080 |
Ndufs8 | 3024 |
Ndufv2 | 2410 |
Ndufb3 | 2057 |
Ndufaf2 | 1343 |
Ndufa9 | 886 |
Acad9 | -240 |
Tmem126b | -1182 |
Ndufaf4 | -2003 |
Ndufa10 | -3072 |
Ndufs1 | -3911 |
Tmem186 | -7054 |
CLASS C 3 METABOTROPIC GLUTAMATE PHEROMONE RECEPTORS
157 | |
---|---|
set | CLASS C 3 METABOTROPIC GLUTAMATE PHEROMONE RECEPTORS |
setSize | 12 |
pANOVA | 0.00198 |
s.dist | -0.516 |
p.adjustANOVA | 0.0175 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Grm2 | -8215 |
Gabbr2 | -8027 |
Grm4 | -7365 |
Grm7 | -6645 |
Casr | -5398 |
Grm8 | -4658 |
Gabbr1 | -3158 |
Grm5 | -2796 |
Grm1 | -2627 |
Grm3 | -2111 |
Tas1r1 | -1398 |
Tas1r3 | 1372 |
GeneID | Gene Rank |
---|---|
Grm2 | -8215 |
Gabbr2 | -8027 |
Grm4 | -7365 |
Grm7 | -6645 |
Casr | -5398 |
Grm8 | -4658 |
Gabbr1 | -3158 |
Grm5 | -2796 |
Grm1 | -2627 |
Grm3 | -2111 |
Tas1r1 | -1398 |
Tas1r3 | 1372 |
SEROTONIN NEUROTRANSMITTER RELEASE CYCLE
923 | |
---|---|
set | SEROTONIN NEUROTRANSMITTER RELEASE CYCLE |
setSize | 18 |
pANOVA | 0.000196 |
s.dist | -0.507 |
p.adjustANOVA | 0.00283 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Snap25 | -7957 |
Slc18a2 | -7319 |
Stxbp1 | -6854 |
Syn1 | -6816 |
Syt1 | -6724 |
Ppfia2 | -6014 |
Syn2 | -5140 |
Ppfia1 | -4817 |
Tspoap1 | -4692 |
Stx1a | -4519 |
Rab3a | -4198 |
Unc13b | -3939 |
Rims1 | -3757 |
Syn3 | -3686 |
Cplx1 | -3549 |
Ppfia4 | -1763 |
Ppfia3 | -157 |
Vamp2 | 6732 |
GeneID | Gene Rank |
---|---|
Snap25 | -7957 |
Slc18a2 | -7319 |
Stxbp1 | -6854 |
Syn1 | -6816 |
Syt1 | -6724 |
Ppfia2 | -6014 |
Syn2 | -5140 |
Ppfia1 | -4817 |
Tspoap1 | -4692 |
Stx1a | -4519 |
Rab3a | -4198 |
Unc13b | -3939 |
Rims1 | -3757 |
Syn3 | -3686 |
Cplx1 | -3549 |
Ppfia4 | -1763 |
Ppfia3 | -157 |
Vamp2 | 6732 |
ACETYLCHOLINE BINDING AND DOWNSTREAM EVENTS
8 | |
---|---|
set | ACETYLCHOLINE BINDING AND DOWNSTREAM EVENTS |
setSize | 10 |
pANOVA | 0.00612 |
s.dist | -0.501 |
p.adjustANOVA | 0.0451 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Chrna6 | -8382 |
Chrnb3 | -8346 |
Chrna4 | -7669 |
Chrna1 | -7134 |
Chrna7 | -5500 |
Chrna5 | -5295 |
Chrnb2 | -2517 |
Chrna2 | -1455 |
Chrna3 | 522 |
Chrnb4 | 4539 |
GeneID | Gene Rank |
---|---|
Chrna6 | -8382 |
Chrnb3 | -8346 |
Chrna4 | -7669 |
Chrna1 | -7134 |
Chrna7 | -5500 |
Chrna5 | -5295 |
Chrnb2 | -2517 |
Chrna2 | -1455 |
Chrna3 | 522 |
Chrnb4 | 4539 |
HIGHLY CALCIUM PERMEABLE POSTSYNAPTIC NICOTINIC ACETYLCHOLINE RECEPTORS
419 | |
---|---|
set | HIGHLY CALCIUM PERMEABLE POSTSYNAPTIC NICOTINIC ACETYLCHOLINE RECEPTORS |
setSize | 10 |
pANOVA | 0.00612 |
s.dist | -0.501 |
p.adjustANOVA | 0.0451 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Chrna6 | -8382 |
Chrnb3 | -8346 |
Chrna4 | -7669 |
Chrna1 | -7134 |
Chrna7 | -5500 |
Chrna5 | -5295 |
Chrnb2 | -2517 |
Chrna2 | -1455 |
Chrna3 | 522 |
Chrnb4 | 4539 |
GeneID | Gene Rank |
---|---|
Chrna6 | -8382 |
Chrnb3 | -8346 |
Chrna4 | -7669 |
Chrna1 | -7134 |
Chrna7 | -5500 |
Chrna5 | -5295 |
Chrnb2 | -2517 |
Chrna2 | -1455 |
Chrna3 | 522 |
Chrnb4 | 4539 |
ENDOSOMAL VACUOLAR PATHWAY
283 | |
---|---|
set | ENDOSOMAL VACUOLAR PATHWAY |
setSize | 11 |
pANOVA | 0.00485 |
s.dist | 0.49 |
p.adjustANOVA | 0.0381 |
Top enriched genes
GeneID | Gene Rank |
---|---|
B2m | 6646 |
H2-Q7 | 6535 |
H2-Q2 | 5327 |
H2-T23 | 5213 |
Ctsl | 4949 |
H2-Bl | 4799 |
H2-D1 | 4742 |
H2-Q10 | 4362 |
Ctss | 2953 |
Lnpep | 2503 |
H2-M3 | -248 |
GeneID | Gene Rank |
---|---|
B2m | 6646 |
H2-Q7 | 6535 |
H2-Q2 | 5327 |
H2-T23 | 5213 |
Ctsl | 4949 |
H2-Bl | 4799 |
H2-D1 | 4742 |
H2-Q10 | 4362 |
Ctss | 2953 |
Lnpep | 2503 |
H2-M3 | -248 |
SYNTHESIS OF PROSTAGLANDINS PG AND THROMBOXANES TX
1049 | |
---|---|
set | SYNTHESIS OF PROSTAGLANDINS PG AND THROMBOXANES TX |
setSize | 13 |
pANOVA | 0.00317 |
s.dist | 0.473 |
p.adjustANOVA | 0.0266 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Ptgis | 8575 |
Tbxas1 | 8491 |
Ptgds | 8158 |
Hpgd | 8095 |
Prxl2b | 7998 |
Ptges3 | 7444 |
Ptges2 | 7145 |
Ptges | 2441 |
Ptgr2 | 2135 |
Hpgds | 2089 |
Ptgs1 | 155 |
Cbr1 | -38 |
Ptgs2 | -8198 |
GeneID | Gene Rank |
---|---|
Ptgis | 8575 |
Tbxas1 | 8491 |
Ptgds | 8158 |
Hpgd | 8095 |
Prxl2b | 7998 |
Ptges3 | 7444 |
Ptges2 | 7145 |
Ptges | 2441 |
Ptgr2 | 2135 |
Hpgds | 2089 |
Ptgs1 | 155 |
Cbr1 | -38 |
Ptgs2 | -8198 |
REGULATION OF EXPRESSION OF SLITS AND ROBOS
791 | |
---|---|
set | REGULATION OF EXPRESSION OF SLITS AND ROBOS |
setSize | 160 |
pANOVA | 9.64e-25 |
s.dist | 0.47 |
p.adjustANOVA | 1.42e-22 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Psme2 | 8166 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Magoh | 7811 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
GeneID | Gene Rank |
---|---|
Rps29 | 8324 |
Rpl39 | 8216 |
Psme2 | 8166 |
Rps21 | 8164 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Magoh | 7811 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Psmb2 | 7415 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Psma3 | 7210 |
Sem1 | 7196 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Psmd13 | 6994 |
Rps27l | 6993 |
Rpl23 | 6934 |
Psmd3 | 6932 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Psmd10 | 6834 |
Rpl31 | 6769 |
Psmd14 | 6755 |
Psmd9 | 6719 |
Rps17 | 6718 |
Ncbp1 | 6700 |
Psmc5 | 6668 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Elob | 6366 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Rbm8a | 6261 |
Psmb7 | 6238 |
Psmc3 | 6232 |
Psmb4 | 6221 |
Rpl4 | 6202 |
Psmb5 | 6185 |
Rpl7 | 6140 |
Psmd8 | 6112 |
Rpl10a | 6104 |
Psma1 | 6039 |
Isl1 | 5986 |
Rpl24 | 5910 |
Psmc4 | 5879 |
Psmd7 | 5877 |
Rpl10 | 5873 |
Rps11 | 5845 |
Psmb1 | 5844 |
Rpl5 | 5817 |
Psmb10 | 5781 |
Rpl11 | 5763 |
Rps26 | 5704 |
Psmb6 | 5648 |
Rpl22 | 5586 |
Pabpc1 | 5561 |
Psmb3 | 5550 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Psmd6 | 5159 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Psma7 | 4671 |
Psma2 | 4611 |
Rpl6 | 4586 |
Psme1 | 4561 |
Psma6 | 4552 |
Rps18 | 4493 |
Rpl7a | 4325 |
Rpl28 | 4167 |
Psmb8 | 3666 |
Psma5 | 3567 |
Eif4a3 | 3535 |
Psmd4 | 3513 |
Rps7 | 3272 |
Psme3 | 3262 |
Col4a5 | 2476 |
Rps2 | 2142 |
Psma4 | 1885 |
Rbx1 | 1815 |
Psmc1 | 1378 |
Eloc | 1093 |
Dag1 | 929 |
Psmb9 | 907 |
Psmd11 | 828 |
Psmc2 | 431 |
Ubb | 86 |
Upf2 | -51 |
Psmf1 | -380 |
Upf3b | -602 |
Psmd2 | -922 |
Psmd5 | -1281 |
Upf3a | -1443 |
Rnps1 | -2025 |
Psmd1 | -2044 |
Eif4g1 | -2238 |
Gspt1 | -2347 |
Psme4 | -2416 |
Ldb1 | -2535 |
Robo1 | -3169 |
Zswim8 | -3682 |
Cul2 | -3769 |
Msi1 | -3996 |
Casc3 | -4014 |
Usp33 | -4015 |
Lhx2 | -4679 |
Slit2 | -4680 |
Gspt2 | -4763 |
Robo2 | -5163 |
Psmc6 | -5258 |
Ncbp2 | -5267 |
Etf1 | -5340 |
Robo3 | -5968 |
Lhx9 | -6264 |
Magohb | -6732 |
Slit1 | -6971 |
Ubc | -7101 |
Psmd12 | -7849 |
RESPIRATORY ELECTRON TRANSPORT ATP SYNTHESIS BY CHEMIOSMOTIC COUPLING AND HEAT PRODUCTION BY UNCOUPLING PROTEINS
836 | |
---|---|
set | RESPIRATORY ELECTRON TRANSPORT ATP SYNTHESIS BY CHEMIOSMOTIC COUPLING AND HEAT PRODUCTION BY UNCOUPLING PROTEINS |
setSize | 125 |
pANOVA | 6.11e-19 |
s.dist | 0.46 |
p.adjustANOVA | 7.2e-17 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Atp5g2 | 8456 |
mt-Atp8 | 8089 |
Slc25a14 | 8010 |
Ndufa2 | 7962 |
mt-Nd3 | 7922 |
Ndufb2 | 7695 |
Ucp2 | 7675 |
mt-Nd6 | 7499 |
Atp5e | 7418 |
Ndufaf5 | 7375 |
Cox6a1 | 7372 |
Ndufa1 | 7277 |
Pm20d1 | 7234 |
Atp5k | 7190 |
Ndufs3 | 7184 |
mt-Nd5 | 7001 |
Surf1 | 6985 |
Ndufaf1 | 6860 |
mt-Co1 | 6739 |
Ndufb10 | 6725 |
GeneID | Gene Rank |
---|---|
Atp5g2 | 8456 |
mt-Atp8 | 8089 |
Slc25a14 | 8010 |
Ndufa2 | 7962 |
mt-Nd3 | 7922 |
Ndufb2 | 7695 |
Ucp2 | 7675 |
mt-Nd6 | 7499 |
Atp5e | 7418 |
Ndufaf5 | 7375 |
Cox6a1 | 7372 |
Ndufa1 | 7277 |
Pm20d1 | 7234 |
Atp5k | 7190 |
Ndufs3 | 7184 |
mt-Nd5 | 7001 |
Surf1 | 6985 |
Ndufaf1 | 6860 |
mt-Co1 | 6739 |
Ndufb10 | 6725 |
Timmdc1 | 6715 |
mt-Nd4 | 6666 |
Ndufb11 | 6665 |
mt-Nd2 | 6656 |
Ndufaf7 | 6649 |
Ndufv1 | 6605 |
Ndufb9 | 6565 |
Ndufb1 | 6522 |
Atp5l | 6506 |
mt-Atp6 | 6400 |
Atp5h | 6282 |
Cox7a2l | 6274 |
Ecsit | 6254 |
Ndufs6 | 6239 |
mt-Cytb | 6214 |
Cox4i1 | 6199 |
mt-Nd1 | 6157 |
mt-Co2 | 6148 |
Ndufa3 | 6040 |
Coq10b | 6034 |
Cox5b | 6025 |
Ndufaf6 | 6023 |
Ndufb8 | 6022 |
Atp5g3 | 6018 |
Uqcrq | 5997 |
Uqcrh | 5950 |
Ndufa7 | 5942 |
Ndufc2 | 5918 |
Ndufc1 | 5901 |
Ndufb4 | 5866 |
mt-Co3 | 5862 |
Uqcr11 | 5770 |
Ndufa6 | 5748 |
Etfb | 5713 |
Uqcr10 | 5703 |
Cox8a | 5664 |
Cyc1 | 5608 |
Ndufab1 | 5530 |
Cox6b1 | 5520 |
Cox16 | 5507 |
Ndufs5 | 5395 |
Ndufa13 | 5379 |
Atp5d | 5329 |
Cox5a | 5220 |
Cox7c | 5206 |
Cox20 | 5190 |
Ndufa11 | 5151 |
Ndufa5 | 5142 |
Cox6c | 5012 |
Ndufb7 | 4961 |
Ndufb6 | 4787 |
Ndufb5 | 4716 |
Sdhc | 4677 |
Ndufaf3 | 4394 |
Ndufa4 | 4303 |
Ndufs7 | 4135 |
Taco1 | 3933 |
Nubpl | 3927 |
Atp5j2 | 3899 |
Atp5j | 3858 |
Ndufs2 | 3776 |
Ndufa12 | 3660 |
Uqcrc1 | 3654 |
Etfa | 3582 |
Ndufs4 | 3558 |
Atp5c1 | 3536 |
Atp5a1 | 3504 |
Atp5g1 | 3373 |
Ndufa8 | 3297 |
Ndufv3 | 3080 |
Ndufs8 | 3024 |
Uqcrb | 2965 |
Cox18 | 2928 |
Sdhb | 2830 |
Atp5b | 2771 |
Cox7b | 2718 |
Trap1 | 2672 |
Sdhd | 2559 |
Ndufv2 | 2410 |
Cox14 | 2151 |
Ndufb3 | 2057 |
Dmac2l | 1974 |
Coq10a | 1693 |
Uqcrfs1 | 1406 |
Ndufaf2 | 1343 |
Cox11 | 1342 |
Cycs | 1130 |
Ndufa9 | 886 |
Atp5pb | 826 |
Atp5o | 98 |
Acad9 | -240 |
Cox19 | -1026 |
Uqcrc2 | -1108 |
Sco2 | -1170 |
Tmem126b | -1182 |
Ndufaf4 | -2003 |
Ndufa10 | -3072 |
Ndufs1 | -3911 |
Sdha | -4494 |
Etfdh | -4497 |
Ucp3 | -5642 |
Sco1 | -5722 |
Lrpprc | -6289 |
Tmem186 | -7054 |
Slc25a27 | -7308 |
RESPIRATORY ELECTRON TRANSPORT
835 | |
---|---|
set | RESPIRATORY ELECTRON TRANSPORT |
setSize | 102 |
pANOVA | 1.46e-15 |
s.dist | 0.457 |
p.adjustANOVA | 1.43e-13 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Ndufa2 | 7962 |
mt-Nd3 | 7922 |
Ndufb2 | 7695 |
mt-Nd6 | 7499 |
Ndufaf5 | 7375 |
Cox6a1 | 7372 |
Ndufa1 | 7277 |
Ndufs3 | 7184 |
mt-Nd5 | 7001 |
Surf1 | 6985 |
Ndufaf1 | 6860 |
mt-Co1 | 6739 |
Ndufb10 | 6725 |
Timmdc1 | 6715 |
mt-Nd4 | 6666 |
Ndufb11 | 6665 |
mt-Nd2 | 6656 |
Ndufaf7 | 6649 |
Ndufv1 | 6605 |
Ndufb9 | 6565 |
GeneID | Gene Rank |
---|---|
Ndufa2 | 7962 |
mt-Nd3 | 7922 |
Ndufb2 | 7695 |
mt-Nd6 | 7499 |
Ndufaf5 | 7375 |
Cox6a1 | 7372 |
Ndufa1 | 7277 |
Ndufs3 | 7184 |
mt-Nd5 | 7001 |
Surf1 | 6985 |
Ndufaf1 | 6860 |
mt-Co1 | 6739 |
Ndufb10 | 6725 |
Timmdc1 | 6715 |
mt-Nd4 | 6666 |
Ndufb11 | 6665 |
mt-Nd2 | 6656 |
Ndufaf7 | 6649 |
Ndufv1 | 6605 |
Ndufb9 | 6565 |
Ndufb1 | 6522 |
Cox7a2l | 6274 |
Ecsit | 6254 |
Ndufs6 | 6239 |
mt-Cytb | 6214 |
Cox4i1 | 6199 |
mt-Nd1 | 6157 |
mt-Co2 | 6148 |
Ndufa3 | 6040 |
Coq10b | 6034 |
Cox5b | 6025 |
Ndufaf6 | 6023 |
Ndufb8 | 6022 |
Uqcrq | 5997 |
Uqcrh | 5950 |
Ndufa7 | 5942 |
Ndufc2 | 5918 |
Ndufc1 | 5901 |
Ndufb4 | 5866 |
mt-Co3 | 5862 |
Uqcr11 | 5770 |
Ndufa6 | 5748 |
Etfb | 5713 |
Uqcr10 | 5703 |
Cox8a | 5664 |
Cyc1 | 5608 |
Ndufab1 | 5530 |
Cox6b1 | 5520 |
Cox16 | 5507 |
Ndufs5 | 5395 |
Ndufa13 | 5379 |
Cox5a | 5220 |
Cox7c | 5206 |
Cox20 | 5190 |
Ndufa11 | 5151 |
Ndufa5 | 5142 |
Cox6c | 5012 |
Ndufb7 | 4961 |
Ndufb6 | 4787 |
Ndufb5 | 4716 |
Sdhc | 4677 |
Ndufaf3 | 4394 |
Ndufa4 | 4303 |
Ndufs7 | 4135 |
Taco1 | 3933 |
Nubpl | 3927 |
Ndufs2 | 3776 |
Ndufa12 | 3660 |
Uqcrc1 | 3654 |
Etfa | 3582 |
Ndufs4 | 3558 |
Ndufa8 | 3297 |
Ndufv3 | 3080 |
Ndufs8 | 3024 |
Uqcrb | 2965 |
Cox18 | 2928 |
Sdhb | 2830 |
Cox7b | 2718 |
Trap1 | 2672 |
Sdhd | 2559 |
Ndufv2 | 2410 |
Cox14 | 2151 |
Ndufb3 | 2057 |
Coq10a | 1693 |
Uqcrfs1 | 1406 |
Ndufaf2 | 1343 |
Cox11 | 1342 |
Cycs | 1130 |
Ndufa9 | 886 |
Acad9 | -240 |
Cox19 | -1026 |
Uqcrc2 | -1108 |
Sco2 | -1170 |
Tmem126b | -1182 |
Ndufaf4 | -2003 |
Ndufa10 | -3072 |
Ndufs1 | -3911 |
Sdha | -4494 |
Etfdh | -4497 |
Sco1 | -5722 |
Lrpprc | -6289 |
Tmem186 | -7054 |
NEUROTOXICITY OF CLOSTRIDIUM TOXINS
618 | |
---|---|
set | NEUROTOXICITY OF CLOSTRIDIUM TOXINS |
setSize | 10 |
pANOVA | 0.0133 |
s.dist | -0.452 |
p.adjustANOVA | 0.0842 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Snap25 | -7957 |
Sv2b | -7036 |
Syt1 | -6724 |
Stx1b | -5805 |
Vamp1 | -5123 |
Stx1a | -4519 |
Sv2a | -3051 |
Syt2 | -2656 |
Sv2c | -955 |
Vamp2 | 6732 |
GeneID | Gene Rank |
---|---|
Snap25 | -7957 |
Sv2b | -7036 |
Syt1 | -6724 |
Stx1b | -5805 |
Vamp1 | -5123 |
Stx1a | -4519 |
Sv2a | -3051 |
Syt2 | -2656 |
Sv2c | -955 |
Vamp2 | 6732 |
HDR THROUGH MMEJ ALT NHEJ
410 | |
---|---|
set | HDR THROUGH MMEJ ALT NHEJ |
setSize | 10 |
pANOVA | 0.0136 |
s.dist | -0.451 |
p.adjustANOVA | 0.0851 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Rbbp8 | -8293 |
Rad50 | -7882 |
Parp1 | -7495 |
Nbn | -7292 |
Fen1 | -7154 |
Parp2 | -4738 |
Lig3 | -2436 |
Mre11a | 129 |
Polq | 365 |
Xrcc1 | 7821 |
GeneID | Gene Rank |
---|---|
Rbbp8 | -8293 |
Rad50 | -7882 |
Parp1 | -7495 |
Nbn | -7292 |
Fen1 | -7154 |
Parp2 | -4738 |
Lig3 | -2436 |
Mre11a | 129 |
Polq | 365 |
Xrcc1 | 7821 |
CASPASE ACTIVATION VIA DEPENDENCE RECEPTORS IN THE ABSENCE OF LIGAND
119 | |
---|---|
set | CASPASE ACTIVATION VIA DEPENDENCE RECEPTORS IN THE ABSENCE OF LIGAND |
setSize | 10 |
pANOVA | 0.0145 |
s.dist | -0.446 |
p.adjustANOVA | 0.0882 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Unc5a | -8202 |
Unc5b | -8177 |
Dapk2 | -5689 |
Appl1 | -4318 |
Maged1 | -3856 |
Dapk1 | -3667 |
Casp9 | -3518 |
Dcc | -1807 |
Casp3 | -1379 |
Dapk3 | 4014 |
GeneID | Gene Rank |
---|---|
Unc5a | -8202 |
Unc5b | -8177 |
Dapk2 | -5689 |
Appl1 | -4318 |
Maged1 | -3856 |
Dapk1 | -3667 |
Casp9 | -3518 |
Dcc | -1807 |
Casp3 | -1379 |
Dapk3 | 4014 |
GLUTATHIONE CONJUGATION
383 | |
---|---|
set | GLUTATHIONE CONJUGATION |
setSize | 29 |
pANOVA | 5.61e-05 |
s.dist | 0.432 |
p.adjustANOVA | 0.00112 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Oplah | 8376 |
Cndp2 | 7973 |
Gsto1 | 7625 |
Ggct | 7322 |
Gss | 7317 |
Gstt2 | 7168 |
Ggt5 | 7134 |
Gstp2 | 7027 |
Akr1a1 | 6815 |
Gstm7 | 6559 |
Gsta3 | 5670 |
Gstk1 | 5116 |
Esd | 5068 |
Ggt1 | 4924 |
Mgst1 | 4690 |
Gstp1 | 4514 |
Gstm2 | 4476 |
Gstm4 | 3982 |
Gstm5 | 3648 |
Gstm1 | 3577 |
GeneID | Gene Rank |
---|---|
Oplah | 8376 |
Cndp2 | 7973 |
Gsto1 | 7625 |
Ggct | 7322 |
Gss | 7317 |
Gstt2 | 7168 |
Ggt5 | 7134 |
Gstp2 | 7027 |
Akr1a1 | 6815 |
Gstm7 | 6559 |
Gsta3 | 5670 |
Gstk1 | 5116 |
Esd | 5068 |
Ggt1 | 4924 |
Mgst1 | 4690 |
Gstp1 | 4514 |
Gstm2 | 4476 |
Gstm4 | 3982 |
Gstm5 | 3648 |
Gstm1 | 3577 |
Gstz1 | 2641 |
Hpgds | 2089 |
Gclm | 1218 |
Chac1 | 917 |
Mgst3 | 258 |
Chac2 | -1927 |
Ggt7 | -2811 |
Gclc | -4207 |
Gsto2 | -5733 |
SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 7ALPHA HYDROXYCHOLESTEROL
1037 | |
---|---|
set | SYNTHESIS OF BILE ACIDS AND BILE SALTS VIA 7ALPHA HYDROXYCHOLESTEROL |
setSize | 12 |
pANOVA | 0.01 |
s.dist | 0.429 |
p.adjustANOVA | 0.0677 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Ptgis | 8575 |
Hsd3b7 | 8558 |
Cyp7b1 | 8040 |
Slc27a2 | 7308 |
Scp2 | 6945 |
Acot8 | 6630 |
Rxra | 5400 |
Amacr | 2741 |
Hsd17b4 | 1886 |
Ncoa2 | -2200 |
Ncoa1 | -2993 |
Cyp27a1 | -5021 |
GeneID | Gene Rank |
---|---|
Ptgis | 8575 |
Hsd3b7 | 8558 |
Cyp7b1 | 8040 |
Slc27a2 | 7308 |
Scp2 | 6945 |
Acot8 | 6630 |
Rxra | 5400 |
Amacr | 2741 |
Hsd17b4 | 1886 |
Ncoa2 | -2200 |
Ncoa1 | -2993 |
Cyp27a1 | -5021 |
PHASE 4 RESTING MEMBRANE POTENTIAL
693 | |
---|---|
set | PHASE 4 RESTING MEMBRANE POTENTIAL |
setSize | 14 |
pANOVA | 0.00605 |
s.dist | -0.424 |
p.adjustANOVA | 0.0451 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Kcnk10 | -7622 |
Kcnj2 | -7541 |
Kcnj14 | -7425 |
Kcnk9 | -7332 |
Kcnk4 | -6896 |
Kcnk3 | -5983 |
Kcnk13 | -5815 |
Kcnj4 | -3946 |
Kcnk5 | -3049 |
Kcnj12 | -2373 |
Kcnk1 | -1315 |
Kcnk2 | 1613 |
Kcnk6 | 2944 |
Kcnk12 | 6215 |
GeneID | Gene Rank |
---|---|
Kcnk10 | -7622 |
Kcnj2 | -7541 |
Kcnj14 | -7425 |
Kcnk9 | -7332 |
Kcnk4 | -6896 |
Kcnk3 | -5983 |
Kcnk13 | -5815 |
Kcnj4 | -3946 |
Kcnk5 | -3049 |
Kcnj12 | -2373 |
Kcnk1 | -1315 |
Kcnk2 | 1613 |
Kcnk6 | 2944 |
Kcnk12 | 6215 |
DSCAM INTERACTIONS
269 | |
---|---|
set | DSCAM INTERACTIONS |
setSize | 10 |
pANOVA | 0.0207 |
s.dist | -0.422 |
p.adjustANOVA | 0.113 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Mapk8 | -7464 |
Pak1 | -6410 |
Dscam | -5782 |
Ntn1 | -4875 |
Mapk11 | -4772 |
Dscaml1 | -3541 |
Mapk12 | -2604 |
Dcc | -1807 |
Mapk14 | -1644 |
Rac1 | 4337 |
GeneID | Gene Rank |
---|---|
Mapk8 | -7464 |
Pak1 | -6410 |
Dscam | -5782 |
Ntn1 | -4875 |
Mapk11 | -4772 |
Dscaml1 | -3541 |
Mapk12 | -2604 |
Dcc | -1807 |
Mapk14 | -1644 |
Rac1 | 4337 |
RESOLUTION OF D LOOP STRUCTURES THROUGH SYNTHESIS DEPENDENT STRAND ANNEALING SDSA
833 | |
---|---|
set | RESOLUTION OF D LOOP STRUCTURES THROUGH SYNTHESIS DEPENDENT STRAND ANNEALING SDSA |
setSize | 24 |
pANOVA | 0.000378 |
s.dist | -0.419 |
p.adjustANOVA | 0.00455 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Blm | -8384 |
Rbbp8 | -8293 |
Xrcc3 | -7965 |
Rad50 | -7882 |
Rad51 | -7847 |
Rad51d | -7586 |
Palb2 | -7388 |
Nbn | -7292 |
Rad51ap1 | -7236 |
Top3a | -6627 |
Wrn | -6577 |
Dna2 | -6227 |
Rmi2 | -5719 |
Kat5 | -5324 |
Rtel1 | -4759 |
Rad51c | -4064 |
Bard1 | -2084 |
Mre11a | 129 |
Atm | 286 |
Rmi1 | 2826 |
GeneID | Gene Rank |
---|---|
Blm | -8384 |
Rbbp8 | -8293 |
Xrcc3 | -7965 |
Rad50 | -7882 |
Rad51 | -7847 |
Rad51d | -7586 |
Palb2 | -7388 |
Nbn | -7292 |
Rad51ap1 | -7236 |
Top3a | -6627 |
Wrn | -6577 |
Dna2 | -6227 |
Rmi2 | -5719 |
Kat5 | -5324 |
Rtel1 | -4759 |
Rad51c | -4064 |
Bard1 | -2084 |
Mre11a | 129 |
Atm | 286 |
Rmi1 | 2826 |
Brca2 | 4097 |
Brca1 | 6944 |
Xrcc2 | 7258 |
Brip1 | 7514 |
CELLULAR RESPONSE TO STARVATION
140 | |
---|---|
set | CELLULAR RESPONSE TO STARVATION |
setSize | 146 |
pANOVA | 4.64e-18 |
s.dist | 0.415 |
p.adjustANOVA | 4.97e-16 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Castor1 | 8511 |
Mlst8 | 8502 |
Rps29 | 8324 |
Atp6v1c2 | 8303 |
Rpl39 | 8216 |
Rps21 | 8164 |
Atp6v0e | 8108 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Kptn | 7688 |
Rps27a | 7649 |
GeneID | Gene Rank |
---|---|
Castor1 | 8511 |
Mlst8 | 8502 |
Rps29 | 8324 |
Atp6v1c2 | 8303 |
Rpl39 | 8216 |
Rps21 | 8164 |
Atp6v0e | 8108 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Rpsa | 7817 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Kptn | 7688 |
Rps27a | 7649 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Rps10 | 7262 |
Rpl18a | 7261 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Rpl36al | 7115 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Rps27l | 6993 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Rpl31 | 6769 |
Rps17 | 6718 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Lamtor2 | 6552 |
Rps4x | 6515 |
Rpl35a | 6486 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Rps25 | 6316 |
Rpl30 | 6287 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Rpl10a | 6104 |
Wdr24 | 5952 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Rpl5 | 5817 |
Rpl11 | 5763 |
Rps26 | 5704 |
Rpl22 | 5586 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Atp6v1g1 | 5158 |
Rpl12 | 4902 |
Rpl29 | 4827 |
Atp6v1f | 4737 |
Rpl6 | 4586 |
Rps18 | 4493 |
Nprl2 | 4473 |
Lamtor1 | 4372 |
Rpl7a | 4325 |
Rpl28 | 4167 |
Atp6v1h | 4120 |
Ddit3 | 4079 |
Atp6v0b | 4018 |
Eif2s3x | 3868 |
Eif2s2 | 3836 |
Castor2 | 3541 |
Rps7 | 3272 |
Rheb | 2956 |
Lamtor4 | 2839 |
Trib3 | 2829 |
Lamtor5 | 2738 |
Tcirg1 | 2568 |
Atp6v0c | 2423 |
Impact | 2366 |
Rps2 | 2142 |
Gcn1 | 1960 |
Atf3 | 1510 |
Sec13 | 1306 |
Atp6v0e2 | 1095 |
Mios | 1094 |
Szt2 | 1037 |
Itfg2 | 872 |
Lamtor3 | 740 |
Fnip1 | 727 |
Atp6v1e1 | -196 |
Atf4 | -535 |
Slc38a9 | -596 |
Atp6v1a | -691 |
Rptor | -745 |
Cebpg | -982 |
Atp6v1d | -1483 |
Sesn1 | -1557 |
Depdc5 | -2001 |
Wdr59 | -2110 |
Eif2s1 | -2147 |
Atp6v0d1 | -2202 |
Nprl3 | -2472 |
Cebpb | -2829 |
Sh3bp4 | -3809 |
Rragb | -4765 |
Flcn | -5389 |
Rragc | -5455 |
Mtor | -5456 |
Atp6v1c1 | -5662 |
Rraga | -5879 |
Atp6v1b2 | -6059 |
Atf2 | -6234 |
Bmt2 | -6337 |
Asns | -6355 |
Rragd | -6394 |
Seh1l | -6780 |
Sesn2 | -7160 |
Eif2ak4 | -7338 |
Fnip2 | -7415 |
BC048403 | -7966 |
Atp6v1g2 | -8274 |
CROSS PRESENTATION OF SOLUBLE EXOGENOUS ANTIGENS ENDOSOMES
190 | |
---|---|
set | CROSS PRESENTATION OF SOLUBLE EXOGENOUS ANTIGENS ENDOSOMES |
setSize | 46 |
pANOVA | 1.2e-06 |
s.dist | 0.414 |
p.adjustANOVA | 4.41e-05 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Psme2 | 8166 |
Psmb2 | 7415 |
Psma3 | 7210 |
Sem1 | 7196 |
Psmd13 | 6994 |
Psmd3 | 6932 |
Psmd10 | 6834 |
Psmd14 | 6755 |
Psmd9 | 6719 |
Psmc5 | 6668 |
Psmb7 | 6238 |
Psmc3 | 6232 |
Psmb4 | 6221 |
Psmb5 | 6185 |
Psmd8 | 6112 |
Psma1 | 6039 |
Mrc2 | 5958 |
Psmc4 | 5879 |
Psmd7 | 5877 |
Psmb1 | 5844 |
GeneID | Gene Rank |
---|---|
Psme2 | 8166 |
Psmb2 | 7415 |
Psma3 | 7210 |
Sem1 | 7196 |
Psmd13 | 6994 |
Psmd3 | 6932 |
Psmd10 | 6834 |
Psmd14 | 6755 |
Psmd9 | 6719 |
Psmc5 | 6668 |
Psmb7 | 6238 |
Psmc3 | 6232 |
Psmb4 | 6221 |
Psmb5 | 6185 |
Psmd8 | 6112 |
Psma1 | 6039 |
Mrc2 | 5958 |
Psmc4 | 5879 |
Psmd7 | 5877 |
Psmb1 | 5844 |
Psmb10 | 5781 |
Psmb6 | 5648 |
Psmb3 | 5550 |
Psmd6 | 5159 |
Psma7 | 4671 |
Psma2 | 4611 |
Psme1 | 4561 |
Psma6 | 4552 |
Psmb8 | 3666 |
Psma5 | 3567 |
Psmd4 | 3513 |
Psme3 | 3262 |
Fcgr1 | 1942 |
Psma4 | 1885 |
Psmc1 | 1378 |
Psmb9 | 907 |
Psmd11 | 828 |
Psmc2 | 431 |
Psmf1 | -380 |
Psmd2 | -922 |
Psmd5 | -1281 |
Psmd1 | -2044 |
Psme4 | -2416 |
Mrc1 | -3886 |
Psmc6 | -5258 |
Psmd12 | -7849 |
MITOCHONDRIAL FATTY ACID BETA OXIDATION
566 | |
---|---|
set | MITOCHONDRIAL FATTY ACID BETA OXIDATION |
setSize | 34 |
pANOVA | 2.98e-05 |
s.dist | 0.414 |
p.adjustANOVA | 0.000675 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Acot11 | 8637 |
Hadha | 8109 |
Acad11 | 7845 |
Eci1 | 7519 |
Acsf2 | 7504 |
Dbi | 7371 |
Acaa2 | 7294 |
Pctp | 6802 |
Acbd6 | 6676 |
Decr1 | 6628 |
Acads | 6454 |
Acbd7 | 6410 |
Pccb | 6384 |
Them4 | 5739 |
Ndufab1 | 5530 |
Acadm | 5277 |
Mmut | 5069 |
Echs1 | 4795 |
Mcee | 4694 |
Mmaa | 4366 |
GeneID | Gene Rank |
---|---|
Acot11 | 8637 |
Hadha | 8109 |
Acad11 | 7845 |
Eci1 | 7519 |
Acsf2 | 7504 |
Dbi | 7371 |
Acaa2 | 7294 |
Pctp | 6802 |
Acbd6 | 6676 |
Decr1 | 6628 |
Acads | 6454 |
Acbd7 | 6410 |
Pccb | 6384 |
Them4 | 5739 |
Ndufab1 | 5530 |
Acadm | 5277 |
Mmut | 5069 |
Echs1 | 4795 |
Mcee | 4694 |
Mmaa | 4366 |
Mcat | 4281 |
Hadhb | 4189 |
Acadvl | 3921 |
Acot13 | 2693 |
Hadh | 1980 |
Acadl | 1530 |
Mecr | 1024 |
Acot1 | 19 |
Acad10 | -424 |
Pcca | -2443 |
Acot9 | -3647 |
Acot2 | -5061 |
Acot3 | -5713 |
Acot7 | -6218 |
TRANSLATION
1128 | |
---|---|
set | TRANSLATION |
setSize | 286 |
pANOVA | 7.55e-33 |
s.dist | 0.41 |
p.adjustANOVA | 2.96e-30 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Lars2 | 8635 |
Apeh | 8467 |
Mrpl23 | 8405 |
Mrpl51 | 8340 |
Rps29 | 8324 |
Eral1 | 8269 |
Rpl39 | 8216 |
Mrps35 | 8206 |
Eif3f | 8192 |
Rps21 | 8164 |
Sec61g | 8103 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Aimp2 | 7926 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Ssr3 | 7839 |
Mrps6 | 7837 |
GeneID | Gene Rank |
---|---|
Lars2 | 8635 |
Apeh | 8467 |
Mrpl23 | 8405 |
Mrpl51 | 8340 |
Rps29 | 8324 |
Eral1 | 8269 |
Rpl39 | 8216 |
Mrps35 | 8206 |
Eif3f | 8192 |
Rps21 | 8164 |
Sec61g | 8103 |
Rpl3 | 8058 |
Rps20 | 8017 |
Rps27 | 7934 |
Aimp2 | 7926 |
Rps28 | 7898 |
Rpl38 | 7880 |
Rps19 | 7879 |
Ssr3 | 7839 |
Mrps6 | 7837 |
Rpsa | 7817 |
Eif4a1 | 7790 |
Mrpl9 | 7733 |
Rpl35 | 7726 |
Rplp2 | 7723 |
Rpl36 | 7706 |
Rplp1 | 7698 |
Spcs1 | 7679 |
Rps27a | 7649 |
Eif3j2 | 7627 |
Sec61b | 7615 |
Rps9 | 7590 |
Rps3 | 7580 |
Rpl13a | 7537 |
Fau | 7501 |
Rps6 | 7495 |
Rpl8 | 7494 |
Rps3a1 | 7465 |
Rpl22l1 | 7455 |
Rps5 | 7445 |
Rps8 | 7441 |
Mrpl52 | 7427 |
Rpl37a | 7405 |
Uba52 | 7389 |
Rpl27a | 7367 |
Mrpl14 | 7296 |
Rps10 | 7262 |
Rpl18a | 7261 |
Qars | 7260 |
Eif3b | 7244 |
Rps12 | 7243 |
Rpl13 | 7239 |
Rps24 | 7233 |
Rpl9 | 7222 |
Rps14 | 7193 |
Rps16 | 7179 |
Rps13 | 7175 |
Rps23 | 7138 |
Eef1d | 7126 |
Mrpl16 | 7119 |
Rpl36al | 7115 |
Mrpl47 | 7113 |
Rpl34 | 7059 |
Rpl27 | 7053 |
Rps15 | 7046 |
Mrpl32 | 7022 |
Rps27l | 6993 |
Fars2 | 6981 |
Eef1b2 | 6955 |
Rpl23 | 6934 |
Rpl19 | 6904 |
Rpl37 | 6888 |
Rpl32 | 6869 |
Rpl18 | 6858 |
Mrps9 | 6822 |
Mrpl35 | 6790 |
Tram1 | 6779 |
Rpl31 | 6769 |
Chchd1 | 6756 |
Rps17 | 6718 |
Mrpl36 | 6682 |
Eif3l | 6651 |
Mrps18c | 6637 |
Rpl14 | 6632 |
Rpl23a | 6575 |
Ssr4 | 6528 |
Rps4x | 6515 |
Rpl35a | 6486 |
Eif2b5 | 6485 |
Rps15a | 6467 |
Rpl21 | 6432 |
Rplp0 | 6388 |
Mrps17 | 6373 |
Rpl36a | 6362 |
Rpl17 | 6353 |
Mrps15 | 6336 |
Rps25 | 6316 |
Mrpl53 | 6296 |
Eef1a1 | 6293 |
Rpl30 | 6287 |
Aimp1 | 6269 |
Mrps23 | 6229 |
Yars2 | 6225 |
Rpl4 | 6202 |
Rpl7 | 6140 |
Eif3m | 6107 |
Rpl10a | 6104 |
Mrpl11 | 6056 |
Mrpl12 | 5985 |
Mrpl37 | 5957 |
Srp19 | 5926 |
Rpl24 | 5910 |
Rpl10 | 5873 |
Rps11 | 5845 |
Dap3 | 5841 |
Rpl5 | 5817 |
Eif2b4 | 5807 |
Mrpl4 | 5783 |
Rpl11 | 5763 |
Eif3e | 5752 |
Mrpl28 | 5744 |
Mrps30 | 5727 |
Rps26 | 5704 |
Eef1g | 5692 |
Eef1e1 | 5675 |
Mrpl24 | 5663 |
Mrpl34 | 5633 |
Rpl22 | 5586 |
Eif3d | 5585 |
Rpn2 | 5568 |
Pabpc1 | 5561 |
Mrpl41 | 5545 |
Mrpl43 | 5517 |
Rpl15 | 5501 |
Rpl26 | 5475 |
Sec11c | 5450 |
Eif3i | 5417 |
Mrpl46 | 5398 |
Mrps7 | 5145 |
Eif3k | 5048 |
Mrpl33 | 4967 |
Aurkaip1 | 4960 |
Spcs2 | 4940 |
Mrps16 | 4903 |
Rpl12 | 4902 |
Ssr2 | 4843 |
Farsa | 4829 |
Rpl29 | 4827 |
Mrpl15 | 4791 |
Mrpl57 | 4752 |
Mrpl54 | 4713 |
Mrpl42 | 4704 |
Mrpl48 | 4652 |
Mrpl17 | 4649 |
Eef2 | 4631 |
Mrps14 | 4610 |
Rpl6 | 4586 |
Mrps21 | 4538 |
Eif4ebp1 | 4502 |
Rps18 | 4493 |
Mrps27 | 4485 |
Tufm | 4462 |
Mrps33 | 4461 |
Mrpl20 | 4406 |
Mrpl2 | 4381 |
Rpl7a | 4325 |
Ppa1 | 4276 |
Eif3h | 4198 |
Srp9 | 4190 |
Rpl28 | 4167 |
Pars2 | 4012 |
Mrps34 | 3960 |
Eif2s3x | 3868 |
Mrpl21 | 3842 |
Eif2s2 | 3836 |
Mrps24 | 3793 |
Oxa1l | 3786 |
Mrps26 | 3736 |
Eif4e | 3718 |
Mrpl27 | 3679 |
Vars | 3608 |
Tars2 | 3602 |
Rpn1 | 3417 |
Rps7 | 3272 |
Dars2 | 3254 |
Mrpl13 | 3062 |
Sec11a | 3014 |
Gadd45gip1 | 2920 |
Ddost | 2886 |
Trmt112 | 2844 |
Mtfmt | 2758 |
Tsfm | 2727 |
Srp14 | 2675 |
Mrpl18 | 2608 |
Mrpl30 | 2550 |
Srp54a | 2546 |
Cars2 | 2545 |
Ppa2 | 2484 |
Mtrf1l | 2389 |
Mrps11 | 2196 |
Rps2 | 2142 |
Ears2 | 2131 |
Mrps22 | 2116 |
Gfm2 | 2090 |
Vars2 | 2081 |
Eif3g | 2060 |
Mrpl58 | 2021 |
Mrpl3 | 1962 |
Mrps18b | 1884 |
Hars2 | 1705 |
Mrps25 | 1330 |
Eif2b2 | 1155 |
Mrpl50 | 1036 |
Kars | 1026 |
Eif5b | 996 |
Iars2 | 941 |
Mrps18a | 794 |
Mrpl40 | 704 |
Mrps12 | 631 |
Mrpl49 | 539 |
Sec61a1 | 507 |
Eif3j1 | 483 |
Eif2b3 | 454 |
Mrps28 | 451 |
Eif3c | 409 |
Mrpl38 | 261 |
Mrps10 | 237 |
Srp68 | 157 |
Mrps36 | 115 |
Srpr | 63 |
Mtif2 | 54 |
Cars | 47 |
Nars2 | 3 |
Eif4h | -21 |
Mars2 | -200 |
Hars | -492 |
Mrps2 | -725 |
Mrpl39 | -826 |
Spcs3 | -1013 |
Ssr1 | -1075 |
Mrpl10 | -1205 |
N6amt1 | -1343 |
Mrpl19 | -1446 |
Mrrf | -1589 |
Nars | -1822 |
Srp72 | -1845 |
Eif4a2 | -2042 |
Rars2 | -2047 |
Eif2s1 | -2147 |
Eif4g1 | -2238 |
Gspt1 | -2347 |
Tars | -2422 |
Eif4b | -2681 |
Aars2 | -2889 |
Mars1 | -3088 |
Rars | -3142 |
Mrpl44 | -3182 |
Mrpl22 | -3378 |
Sars2 | -3395 |
Eif5 | -3721 |
Srprb | -3749 |
Wars | -3799 |
Wars2 | -4131 |
Gfm1 | -4231 |
Eprs | -4254 |
Mtif3 | -4361 |
Yars | -4565 |
Lars | -4583 |
Gspt2 | -4763 |
Eef1a2 | -4831 |
Mrpl55 | -4918 |
Farsb | -4935 |
Eif1ax | -5162 |
Aars | -5174 |
Gars | -5201 |
Etf1 | -5340 |
Sec61a2 | -5449 |
Dars | -5548 |
Eif2b1 | -5624 |
Eif3a | -5814 |
Mrps5 | -6874 |
Mrps31 | -7125 |
Mrpl1 | -7667 |
Iars | -7713 |
Ptcd3 | -8032 |
Sars | -8041 |
REGULATION OF GLUCOKINASE BY GLUCOKINASE REGULATORY PROTEIN
797 | |
---|---|
set | REGULATION OF GLUCOKINASE BY GLUCOKINASE REGULATORY PROTEIN |
setSize | 29 |
pANOVA | 0.000133 |
s.dist | -0.41 |
p.adjustANOVA | 0.00212 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Nup88 | -7614 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
Rae1 | -3186 |
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Nup88 | -7614 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
Rae1 | -3186 |
Nup160 | -1266 |
Nup43 | -893 |
Nup50 | -235 |
Nup214 | 169 |
Sec13 | 1306 |
Nup85 | 2288 |
Nup155 | 3219 |
Nup93 | 4212 |
Gck | 5759 |
EXPORT OF VIRAL RIBONUCLEOPROTEINS FROM NUCLEUS
306 | |
---|---|
set | EXPORT OF VIRAL RIBONUCLEOPROTEINS FROM NUCLEUS |
setSize | 31 |
pANOVA | 8.26e-05 |
s.dist | -0.409 |
p.adjustANOVA | 0.00143 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Hspa1a | -8120 |
Nup88 | -7614 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Hspa1a | -8120 |
Nup88 | -7614 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
Rae1 | -3186 |
Nup160 | -1266 |
Nup43 | -893 |
Nup50 | -235 |
Nup214 | 169 |
Sec13 | 1306 |
Xpo1 | 1945 |
Nup85 | 2288 |
Nup155 | 3219 |
Nup93 | 4212 |
Ran | 5627 |
ALPHA LINOLENIC OMEGA3 AND LINOLEIC OMEGA6 ACID METABOLISM
46 | |
---|---|
set | ALPHA LINOLENIC OMEGA3 AND LINOLEIC OMEGA6 ACID METABOLISM |
setSize | 12 |
pANOVA | 0.0144 |
s.dist | 0.408 |
p.adjustANOVA | 0.0882 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Elovl2 | 8343 |
Acaa1a | 7596 |
Fads2 | 7336 |
Scp2 | 6945 |
Elovl1 | 6661 |
Acot8 | 6630 |
Fads1 | 4881 |
Abcd1 | 2303 |
Hsd17b4 | 1886 |
Elovl5 | 1032 |
Acox1 | -2008 |
Acsl1 | -7955 |
GeneID | Gene Rank |
---|---|
Elovl2 | 8343 |
Acaa1a | 7596 |
Fads2 | 7336 |
Scp2 | 6945 |
Elovl1 | 6661 |
Acot8 | 6630 |
Fads1 | 4881 |
Abcd1 | 2303 |
Hsd17b4 | 1886 |
Elovl5 | 1032 |
Acox1 | -2008 |
Acsl1 | -7955 |
ANTIGEN PROCESSING CROSS PRESENTATION
57 | |
---|---|
set | ANTIGEN PROCESSING CROSS PRESENTATION |
setSize | 97 |
pANOVA | 4.31e-12 |
s.dist | 0.407 |
p.adjustANOVA | 2.82e-10 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Snap23 | 8620 |
Cd14 | 8563 |
Psme2 | 8166 |
Tapbp | 8115 |
Sec61g | 8103 |
Rps27a | 7649 |
Sec61b | 7615 |
Psmb2 | 7415 |
Uba52 | 7389 |
Itgb5 | 7248 |
S100a1 | 7224 |
Psma3 | 7210 |
Sem1 | 7196 |
Vamp8 | 7065 |
Cyba | 7018 |
Vamp3 | 7010 |
Psmd13 | 6994 |
Cd36 | 6991 |
Psmd3 | 6932 |
Psmd10 | 6834 |
GeneID | Gene Rank |
---|---|
Snap23 | 8620 |
Cd14 | 8563 |
Psme2 | 8166 |
Tapbp | 8115 |
Sec61g | 8103 |
Rps27a | 7649 |
Sec61b | 7615 |
Psmb2 | 7415 |
Uba52 | 7389 |
Itgb5 | 7248 |
S100a1 | 7224 |
Psma3 | 7210 |
Sem1 | 7196 |
Vamp8 | 7065 |
Cyba | 7018 |
Vamp3 | 7010 |
Psmd13 | 6994 |
Cd36 | 6991 |
Psmd3 | 6932 |
Psmd10 | 6834 |
Ikbkb | 6806 |
Psmd14 | 6755 |
Tlr2 | 6728 |
Psmd9 | 6719 |
Psmc5 | 6668 |
B2m | 6646 |
H2-Q7 | 6535 |
Calr | 6480 |
Myd88 | 6281 |
Psmb7 | 6238 |
Psmc3 | 6232 |
Psmb4 | 6221 |
Psmb5 | 6185 |
Psmd8 | 6112 |
Psma1 | 6039 |
Mrc2 | 5958 |
Psmc4 | 5879 |
Psmd7 | 5877 |
Psmb1 | 5844 |
Hmgb1 | 5824 |
Psmb10 | 5781 |
Stx4a | 5761 |
Ncf1 | 5672 |
Psmb6 | 5648 |
Psmb3 | 5550 |
Chuk | 5448 |
S100a9 | 5337 |
H2-Q2 | 5327 |
H2-T23 | 5213 |
Psmd6 | 5159 |
Ncf2 | 5064 |
Ctsl | 4949 |
H2-Bl | 4799 |
H2-D1 | 4742 |
Psma7 | 4671 |
Psma2 | 4611 |
Psme1 | 4561 |
Psma6 | 4552 |
H2-Q10 | 4362 |
Pdia3 | 4293 |
Itgav | 4023 |
Psmb8 | 3666 |
Psma5 | 3567 |
Psmd4 | 3513 |
Psme3 | 3262 |
Ctss | 2953 |
Lnpep | 2503 |
Fcgr1 | 1942 |
Psma4 | 1885 |
Tap2 | 1413 |
Psmc1 | 1378 |
Tap1 | 1345 |
Sec22b | 1114 |
Psmb9 | 907 |
Psmd11 | 828 |
Sec61a1 | 507 |
Psmc2 | 431 |
Ubb | 86 |
Ikbkg | -41 |
Tlr4 | -99 |
H2-M3 | -248 |
Psmf1 | -380 |
Psmd2 | -922 |
Btk | -1144 |
Psmd5 | -1281 |
Psmd1 | -2044 |
Cybb | -2092 |
Psme4 | -2416 |
Tlr6 | -2525 |
Mrc1 | -3886 |
Tlr1 | -4463 |
Psmc6 | -5258 |
Sec61a2 | -5449 |
Tirap | -6446 |
Ubc | -7101 |
Psmd12 | -7849 |
Ncf4 | -8132 |
BRANCHED CHAIN AMINO ACID CATABOLISM
104 | |
---|---|
set | BRANCHED CHAIN AMINO ACID CATABOLISM |
setSize | 21 |
pANOVA | 0.00125 |
s.dist | 0.407 |
p.adjustANOVA | 0.0122 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Bcat2 | 8549 |
Acad8 | 8468 |
Mccc1 | 8276 |
Acadsb | 8033 |
Ivd | 8007 |
Ppm1k | 6872 |
Dbt | 6530 |
Bckdhb | 6344 |
Aldh6a1 | 6164 |
Mccc2 | 5987 |
Bckdha | 5974 |
Hsd17b10 | 5063 |
Echs1 | 4795 |
Hibadh | 2478 |
Acat1 | 1571 |
Hibch | 1108 |
Slc25a44 | -1724 |
Auh | -3339 |
Dld | -3574 |
Bckdk | -3622 |
GeneID | Gene Rank |
---|---|
Bcat2 | 8549 |
Acad8 | 8468 |
Mccc1 | 8276 |
Acadsb | 8033 |
Ivd | 8007 |
Ppm1k | 6872 |
Dbt | 6530 |
Bckdhb | 6344 |
Aldh6a1 | 6164 |
Mccc2 | 5987 |
Bckdha | 5974 |
Hsd17b10 | 5063 |
Echs1 | 4795 |
Hibadh | 2478 |
Acat1 | 1571 |
Hibch | 1108 |
Slc25a44 | -1724 |
Auh | -3339 |
Dld | -3574 |
Bckdk | -3622 |
Bcat1 | -5800 |
KERATAN SULFATE DEGRADATION
505 | |
---|---|
set | KERATAN SULFATE DEGRADATION |
setSize | 12 |
pANOVA | 0.0148 |
s.dist | 0.406 |
p.adjustANOVA | 0.0883 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Lum | 8064 |
Prelp | 7955 |
Fmod | 7558 |
Ogn | 7014 |
Hexa | 6556 |
Hexb | 6142 |
Omd | 5525 |
Galns | 5298 |
Glb1l | 4305 |
Gns | -2330 |
Glb1 | -4197 |
Acan | -8380 |
GeneID | Gene Rank |
---|---|
Lum | 8064 |
Prelp | 7955 |
Fmod | 7558 |
Ogn | 7014 |
Hexa | 6556 |
Hexb | 6142 |
Omd | 5525 |
Galns | 5298 |
Glb1l | 4305 |
Gns | -2330 |
Glb1 | -4197 |
Acan | -8380 |
METABOLIC DISORDERS OF BIOLOGICAL OXIDATION ENZYMES
540 | |
---|---|
set | METABOLIC DISORDERS OF BIOLOGICAL OXIDATION ENZYMES |
setSize | 21 |
pANOVA | 0.00135 |
s.dist | 0.404 |
p.adjustANOVA | 0.013 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Ahcy | 8529 |
Tbxas1 | 8491 |
Oplah | 8376 |
Cyp7b1 | 8040 |
Fdx1 | 7877 |
Cyp1b1 | 7746 |
Slc35d1 | 7659 |
Gss | 7317 |
Cyp2u1 | 7275 |
Tpmt | 6209 |
Ggt1 | 4924 |
Maoa | 3723 |
Fdx2 | 2438 |
Fdxr | 1439 |
Gclm | 1218 |
Cyp11a1 | 180 |
Acy1 | -421 |
Cyp26b1 | -889 |
Gclc | -4207 |
Cyp27a1 | -5021 |
GeneID | Gene Rank |
---|---|
Ahcy | 8529 |
Tbxas1 | 8491 |
Oplah | 8376 |
Cyp7b1 | 8040 |
Fdx1 | 7877 |
Cyp1b1 | 7746 |
Slc35d1 | 7659 |
Gss | 7317 |
Cyp2u1 | 7275 |
Tpmt | 6209 |
Ggt1 | 4924 |
Maoa | 3723 |
Fdx2 | 2438 |
Fdxr | 1439 |
Gclm | 1218 |
Cyp11a1 | 180 |
Acy1 | -421 |
Cyp26b1 | -889 |
Gclc | -4207 |
Cyp27a1 | -5021 |
Cyp19a1 | -5250 |
CS DS DEGRADATION
192 | |
---|---|
set | CS DS DEGRADATION |
setSize | 14 |
pANOVA | 0.00947 |
s.dist | 0.4 |
p.adjustANOVA | 0.0656 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Hyal1 | 8261 |
Vcan | 7945 |
Bgn | 7481 |
Dcn | 7033 |
Hexa | 6556 |
Hexb | 6142 |
Hyal3 | 5319 |
Bcan | 4926 |
Cspg5 | 2615 |
Ncan | 2085 |
Arsb | 353 |
Idua | 168 |
Ids | -3807 |
Cspg4 | -5034 |
GeneID | Gene Rank |
---|---|
Hyal1 | 8261 |
Vcan | 7945 |
Bgn | 7481 |
Dcn | 7033 |
Hexa | 6556 |
Hexb | 6142 |
Hyal3 | 5319 |
Bcan | 4926 |
Cspg5 | 2615 |
Ncan | 2085 |
Arsb | 353 |
Idua | 168 |
Ids | -3807 |
Cspg4 | -5034 |
ASSEMBLY OF ACTIVE LPL AND LIPC LIPASE COMPLEXES
75 | |
---|---|
set | ASSEMBLY OF ACTIVE LPL AND LIPC LIPASE COMPLEXES |
setSize | 10 |
pANOVA | 0.0305 |
s.dist | -0.395 |
p.adjustANOVA | 0.147 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Angptl4 | -8113 |
Lpl | -8024 |
Pcsk5 | -7521 |
Mbtps2 | -7035 |
Pcsk6 | -5125 |
Mbtps1 | -3471 |
Furin | -1302 |
Creb3l3 | -965 |
Lmf2 | 4571 |
Lmf1 | 4759 |
GeneID | Gene Rank |
---|---|
Angptl4 | -8113 |
Lpl | -8024 |
Pcsk5 | -7521 |
Mbtps2 | -7035 |
Pcsk6 | -5125 |
Mbtps1 | -3471 |
Furin | -1302 |
Creb3l3 | -965 |
Lmf2 | 4571 |
Lmf1 | 4759 |
PHASE 0 RAPID DEPOLARISATION
691 | |
---|---|
set | PHASE 0 RAPID DEPOLARISATION |
setSize | 30 |
pANOVA | 0.000222 |
s.dist | -0.389 |
p.adjustANOVA | 0.00305 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Camk2g | -7821 |
Fgf13 | -7682 |
Scn3b | -7486 |
Camk2b | -7199 |
Cacng7 | -6976 |
Cacnb1 | -6879 |
Cacnb2 | -6713 |
Fgf14 | -6649 |
Cacng6 | -6386 |
Scn1b | -6275 |
Scn5a | -4648 |
Fgf12 | -4526 |
Camk2d | -4042 |
Scn4b | -3694 |
Scn2b | -3573 |
Scn8a | -3451 |
Cacna2d2 | -2569 |
Cacng4 | -2528 |
Scn1a | -2350 |
Cacng8 | -2232 |
GeneID | Gene Rank |
---|---|
Camk2g | -7821 |
Fgf13 | -7682 |
Scn3b | -7486 |
Camk2b | -7199 |
Cacng7 | -6976 |
Cacnb1 | -6879 |
Cacnb2 | -6713 |
Fgf14 | -6649 |
Cacng6 | -6386 |
Scn1b | -6275 |
Scn5a | -4648 |
Fgf12 | -4526 |
Camk2d | -4042 |
Scn4b | -3694 |
Scn2b | -3573 |
Scn8a | -3451 |
Cacna2d2 | -2569 |
Cacng4 | -2528 |
Scn1a | -2350 |
Cacng8 | -2232 |
Scn2a | -1984 |
Scn3a | -865 |
Camk2a | -716 |
Rangrf | -501 |
Fgf11 | -233 |
Cacna1c | 276 |
Scn11a | 933 |
Calm1 | 1520 |
Scn7a | 4300 |
Scn9a | 5842 |
G PROTEIN ACTIVATION
354 | |
---|---|
set | G PROTEIN ACTIVATION |
setSize | 22 |
pANOVA | 0.00171 |
s.dist | 0.386 |
p.adjustANOVA | 0.0158 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Pdyn | 8488 |
Gng5 | 8161 |
Pomc | 7938 |
Gng12 | 7724 |
Gng10 | 7666 |
Gngt2 | 6405 |
Gnb4 | 6271 |
Gna11 | 5847 |
Gng13 | 5779 |
Gng8 | 5474 |
Gng11 | 4550 |
Gng3 | 3539 |
Gnb2 | 3209 |
Gna15 | 3175 |
Gnb1 | 2605 |
Gng7 | 2310 |
Gng4 | -105 |
Oprm1 | -471 |
Gna14 | -746 |
Gnaq | -1545 |
GeneID | Gene Rank |
---|---|
Pdyn | 8488 |
Gng5 | 8161 |
Pomc | 7938 |
Gng12 | 7724 |
Gng10 | 7666 |
Gngt2 | 6405 |
Gnb4 | 6271 |
Gna11 | 5847 |
Gng13 | 5779 |
Gng8 | 5474 |
Gng11 | 4550 |
Gng3 | 3539 |
Gnb2 | 3209 |
Gna15 | 3175 |
Gnb1 | 2605 |
Gng7 | 2310 |
Gng4 | -105 |
Oprm1 | -471 |
Gna14 | -746 |
Gnaq | -1545 |
Gnb5 | -4406 |
Gng2 | -5940 |
NUCLEAR PORE COMPLEX NPC DISASSEMBLY
650 | |
---|---|
set | NUCLEAR PORE COMPLEX NPC DISASSEMBLY |
setSize | 32 |
pANOVA | 0.000158 |
s.dist | -0.386 |
p.adjustANOVA | 0.00242 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Nup88 | -7614 |
Nek6 | -7540 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Nup88 | -7614 |
Nek6 | -7540 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
Rae1 | -3186 |
Nek9 | -2631 |
Nup160 | -1266 |
Nup43 | -893 |
Nup50 | -235 |
Nup214 | 169 |
Sec13 | 1306 |
Nup85 | 2288 |
Nup155 | 3219 |
Nup93 | 4212 |
Nek7 | 5931 |
Ccnb2 | 6557 |
RIP MEDIATED NFKB ACTIVATION VIA ZBP1
871 | |
---|---|
set | RIP MEDIATED NFKB ACTIVATION VIA ZBP1 |
setSize | 15 |
pANOVA | 0.00988 |
s.dist | 0.385 |
p.adjustANOVA | 0.0677 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Nfkb2 | 8457 |
Nfkbib | 7643 |
Nkiras2 | 7203 |
Ikbkb | 6806 |
Myd88 | 6281 |
Ripk1 | 6255 |
Chuk | 5448 |
Ticam1 | 4367 |
Rela | 3017 |
Nfkbia | 1047 |
Nkiras1 | 1031 |
Nfkb1 | 555 |
Ikbkg | -41 |
Tlr3 | -1592 |
Dhx9 | -4879 |
GeneID | Gene Rank |
---|---|
Nfkb2 | 8457 |
Nfkbib | 7643 |
Nkiras2 | 7203 |
Ikbkb | 6806 |
Myd88 | 6281 |
Ripk1 | 6255 |
Chuk | 5448 |
Ticam1 | 4367 |
Rela | 3017 |
Nfkbia | 1047 |
Nkiras1 | 1031 |
Nfkb1 | 555 |
Ikbkg | -41 |
Tlr3 | -1592 |
Dhx9 | -4879 |
THROMBOXANE SIGNALLING THROUGH TP RECEPTOR
1075 | |
---|---|
set | THROMBOXANE SIGNALLING THROUGH TP RECEPTOR |
setSize | 22 |
pANOVA | 0.00196 |
s.dist | 0.381 |
p.adjustANOVA | 0.0175 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Gng5 | 8161 |
Gng12 | 7724 |
Gng10 | 7666 |
Gngt2 | 6405 |
Aamp | 6328 |
Gnb4 | 6271 |
Gna11 | 5847 |
Gng13 | 5779 |
Tbxa2r | 5650 |
Gng8 | 5474 |
Gng11 | 4550 |
Gng3 | 3539 |
Gnb2 | 3209 |
Gna15 | 3175 |
Gna13 | 3047 |
Gnb1 | 2605 |
Gng7 | 2310 |
Gng4 | -105 |
Gna14 | -746 |
Gnaq | -1545 |
GeneID | Gene Rank |
---|---|
Gng5 | 8161 |
Gng12 | 7724 |
Gng10 | 7666 |
Gngt2 | 6405 |
Aamp | 6328 |
Gnb4 | 6271 |
Gna11 | 5847 |
Gng13 | 5779 |
Tbxa2r | 5650 |
Gng8 | 5474 |
Gng11 | 4550 |
Gng3 | 3539 |
Gnb2 | 3209 |
Gna15 | 3175 |
Gna13 | 3047 |
Gnb1 | 2605 |
Gng7 | 2310 |
Gng4 | -105 |
Gna14 | -746 |
Gnaq | -1545 |
Gnb5 | -4406 |
Gng2 | -5940 |
CRISTAE FORMATION
188 | |
---|---|
set | CRISTAE FORMATION |
setSize | 31 |
pANOVA | 0.000241 |
s.dist | 0.381 |
p.adjustANOVA | 0.00319 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Atp5g2 | 8456 |
mt-Atp8 | 8089 |
Atp5e | 7418 |
Micos13 | 7278 |
Atp5k | 7190 |
Chchd6 | 6612 |
Atp5l | 6506 |
mt-Atp6 | 6400 |
Atp5h | 6282 |
Atp5g3 | 6018 |
Mtx2 | 5697 |
Atp5d | 5329 |
Mtx1 | 5028 |
Chchd3 | 5006 |
Micos10 | 4682 |
Atp5j2 | 3899 |
Atp5j | 3858 |
Samm50 | 3856 |
Atp5c1 | 3536 |
Atp5a1 | 3504 |
GeneID | Gene Rank |
---|---|
Atp5g2 | 8456 |
mt-Atp8 | 8089 |
Atp5e | 7418 |
Micos13 | 7278 |
Atp5k | 7190 |
Chchd6 | 6612 |
Atp5l | 6506 |
mt-Atp6 | 6400 |
Atp5h | 6282 |
Atp5g3 | 6018 |
Mtx2 | 5697 |
Atp5d | 5329 |
Mtx1 | 5028 |
Chchd3 | 5006 |
Micos10 | 4682 |
Atp5j2 | 3899 |
Atp5j | 3858 |
Samm50 | 3856 |
Atp5c1 | 3536 |
Atp5a1 | 3504 |
Atp5g1 | 3373 |
Atp5b | 2771 |
Dmac2l | 1974 |
Immt | 1066 |
Tmem11 | 983 |
Atp5pb | 826 |
Atp5o | 98 |
Apoo | -1115 |
Hspa9 | -5043 |
Dnajc11 | -6795 |
Apool | -7222 |
SUMOYLATION OF SUMOYLATION PROTEINS
1026 | |
---|---|
set | SUMOYLATION OF SUMOYLATION PROTEINS |
setSize | 33 |
pANOVA | 0.000168 |
s.dist | -0.379 |
p.adjustANOVA | 0.00254 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Topors | -8002 |
Nup88 | -7614 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Ube2i | -3850 |
Nup133 | -3611 |
Ranbp2 | -3593 |
GeneID | Gene Rank |
---|---|
Nup107 | -8354 |
Topors | -8002 |
Nup88 | -7614 |
Nup54 | -7536 |
Nup210 | -7481 |
Nup205 | -7126 |
Aaas | -7030 |
Ndc1 | -6990 |
Seh1l | -6780 |
Tpr | -5949 |
Nup153 | -5609 |
Nup37 | -5540 |
Nup98 | -4892 |
Nup62 | -4677 |
Nup35 | -4252 |
Nupl2 | -3953 |
Pom121 | -3926 |
Ube2i | -3850 |
Nup133 | -3611 |
Ranbp2 | -3593 |
Nup188 | -3465 |
Rae1 | -3186 |
Nup160 | -1266 |
Nup43 | -893 |
Nup50 | -235 |
Nup214 | 169 |
Sec13 | 1306 |
Nup85 | 2288 |
Sumo2 | 2584 |
Nup155 | 3219 |
Nup93 | 4212 |
Pias4 | 5087 |
Sumo1 | 5434 |
ASPARTATE AND ASPARAGINE METABOLISM
73 | |
---|---|
set | ASPARTATE AND ASPARAGINE METABOLISM |
setSize | 10 |
pANOVA | 0.0382 |
s.dist | -0.378 |
p.adjustANOVA | 0.169 |
Top enriched genes
GeneID | Gene Rank |
---|---|
Got1 | -7211 |
Nat8l | -6764 |
Asns | -6355 |
Got2 | -5866 |
Aspa | -5693 |
Slc25a12 | -4389 |
Aspg | -3293 |
Folh1 | -222 |
Naalad2 | 1548 |
Slc25a13 | 7442 |
GeneID | Gene Rank |
---|---|
Got1 | -7211 |
Nat8l | -6764 |
Asns | -6355 |
Got2 | -5866 |
Aspa | -5693 |
Slc25a12 | -4389 |
Aspg | -3293 |
Folh1 | -222 |
Naalad2 | 1548 |
Slc25a13 | 7442 |
Here is the session info with all the versions of packages used.
sessionInfo()
## R version 4.3.1 (2023-06-16)
## 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_AU.UTF-8 LC_NUMERIC=C
## [3] LC_TIME=en_AU.UTF-8 LC_COLLATE=en_AU.UTF-8
## [5] LC_MONETARY=en_AU.UTF-8 LC_MESSAGES=en_AU.UTF-8
## [7] LC_PAPER=en_AU.UTF-8 LC_NAME=C
## [9] LC_ADDRESS=C LC_TELEPHONE=C
## [11] LC_MEASUREMENT=en_AU.UTF-8 LC_IDENTIFICATION=C
##
## time zone: /usr/share/zoneinfo/Australia/Melbourne
## tzcode source: system (glibc)
##
## attached base packages:
## [1] stats4 stats graphics grDevices utils datasets methods
## [8] base
##
## other attached packages:
## [1] GGally_2.1.2 gtools_3.9.4
## [3] echarts4r_0.4.5 beeswarm_0.4.0
## [5] pkgload_1.3.2.1 vioplot_0.4.0
## [7] sm_2.2-5.7.1 kableExtra_1.3.4
## [9] topconfects_1.16.0 limma_3.56.2
## [11] eulerr_7.0.0 mitch_1.12.0
## [13] MASS_7.3-60 fgsea_1.26.0
## [15] gplots_3.1.3 DESeq2_1.40.2
## [17] SummarizedExperiment_1.30.2 Biobase_2.60.0
## [19] MatrixGenerics_1.12.3 matrixStats_1.0.0
## [21] GenomicRanges_1.52.0 GenomeInfoDb_1.36.2
## [23] IRanges_2.34.1 S4Vectors_0.38.1
## [25] BiocGenerics_0.46.0 reshape2_1.4.4
## [27] lubridate_1.9.2 forcats_1.0.0
## [29] stringr_1.5.0 dplyr_1.1.2
## [31] purrr_1.0.2 readr_2.1.4
## [33] tidyr_1.3.0 tibble_3.2.1
## [35] ggplot2_3.4.3 tidyverse_2.0.0
## [37] zoo_1.8-12
##
## loaded via a namespace (and not attached):
## [1] bitops_1.0-7 gridExtra_2.3 rlang_1.1.1
## [4] magrittr_2.0.3 compiler_4.3.1 polylabelr_0.2.0
## [7] systemfonts_1.0.4 vctrs_0.6.3 rvest_1.0.3
## [10] pkgconfig_2.0.3 crayon_1.5.2 fastmap_1.1.1
## [13] XVector_0.40.0 ellipsis_0.3.2 caTools_1.18.2
## [16] utf8_1.2.3 promises_1.2.1 rmarkdown_2.24
## [19] tzdb_0.4.0 xfun_0.40 zlibbioc_1.46.0
## [22] cachem_1.0.8 jsonlite_1.8.7 highr_0.10
## [25] later_1.3.1 DelayedArray_0.26.7 reshape_0.8.9
## [28] BiocParallel_1.34.2 parallel_4.3.1 R6_2.5.1
## [31] bslib_0.5.1 stringi_1.7.12 RColorBrewer_1.1-3
## [34] jquerylib_0.1.4 assertthat_0.2.1 Rcpp_1.0.11
## [37] knitr_1.43 httpuv_1.6.11 Matrix_1.6-1
## [40] timechange_0.2.0 tidyselect_1.2.0 rstudioapi_0.15.0
## [43] abind_1.4-5 yaml_2.3.7 codetools_0.2-19
## [46] lattice_0.21-8 plyr_1.8.8 shiny_1.7.5
## [49] withr_2.5.0 evaluate_0.21 polyclip_1.10-4
## [52] xml2_1.3.5 pillar_1.9.0 KernSmooth_2.23-22
## [55] generics_0.1.3 RCurl_1.98-1.12 hms_1.1.3
## [58] munsell_0.5.0 scales_1.2.1 xtable_1.8-4
## [61] glue_1.6.2 tools_4.3.1 data.table_1.14.8
## [64] webshot_0.5.5 locfit_1.5-9.8 fastmatch_1.1-4
## [67] cowplot_1.1.1 grid_4.3.1 colorspace_2.1-0
## [70] GenomeInfoDbData_1.2.10 cli_3.6.1 fansi_1.0.4
## [73] viridisLite_0.4.2 S4Arrays_1.0.5 svglite_2.1.1
## [76] gtable_0.3.4 sass_0.4.7 digest_0.6.33
## [79] htmlwidgets_1.6.2 htmltools_0.5.6 lifecycle_1.0.3
## [82] httr_1.4.7 mime_0.12
END of report