Abstract Background The genomes of three major mosquito vectors of human diseases, Anopheles gambiae, Aedes aegypti, and Culex pipiens quinquefasciatus, have been previously sequenced. C. p. quinquefasciatus has the largest number of predicted protein-coding genes, which partially results from the expansion of three detoxification gene families: cytochrome P450 monooxygenases (P450), glutathione S-transferases (GST), and carboxyl/cholinesterases (CCE). However, unlike An. gambiae and Ae. aegypti, which have large amounts of gene expression data, C. p. quinquefasciatus has limited transcriptomic resources. Knowledge of complete gene expression information is very important for the exploration of the functions of genes involved in specific biological processes. In the present study, the three detoxification gene families of C. p. quinquefasciatus were analyzed for phylogenetic classification and compared with those of three other dipteran insects. Gene expression during various developmental stages and the differential expression responsible for parathion resistance were profiled using the digital gene expression (DGE) technique. Results A total of 302 detoxification genes were found in C. p. quinquefasciatus, including 71 CCE, 196 P450, and 35 cytosolic GST genes. Compared with three other dipteran species, gene expansion in Culex mainly occurred in the CCE and P450 families, where the genes of α-esterases, juvenile hormone esterases, and CYP325 of the CYP4 subfamily showed the most pronounced expansion on the genome. For the five DGE libraries, 3.5-3.8 million raw tags were generated and mapped to 13314 reference genes. Among 302 detoxification genes, 225 (75%) were detected for expression in at least one DGE library. One fourth of the CCE and P450 genes were detected uniquely in one stage, indicating potential developmentally regulated expression. A total of 1511 genes showed different expression levels between a parathion-resistant and a susceptible strain. Fifteen detoxification genes, including 2 CCEs, 6 GSTs, and 7 P450s, were expressed at higher levels in the resistant strain. Conclusions The results of the present study provide new insights into the functions and evolution of three detoxification gene families in mosquitoes and comprehensive transcriptomic resources for C. p. quinquefasciatus, which will facilitate the elucidation of molecular mechanisms underlying the different biological characteristics of the three major mosquito vectors. Keywords: Carboxyl/cholinesterases, Cytochrome P450 monooxygenases, Glutathione S-transferases, Insecticide resistance, Gene expansion, Gene expression Background Mosquitoes are the most important vectors of human diseases. The Culex pipiens complex has a broad geographic distribution and is the vector of the West Nile virus and the Wuchereria bancrofti nematode, which causes filariasis. Over the last several decades, chemical insecticides have been intensively applied to control disease transmission. However, such control is undermined seriously by the increased insecticide resistance of vector mosquitoes. Three gene families are implicated in insecticide metabolism in mosquitoes: cytochrome P450 monooxygenases (P450s) are responsible for pyrethroid resistance [[36]1], glutathione S-transferases (GSTs) are responsible for DDT resistance [[37]2], and carboxyl/cholinesterases (CCEs) are responsible for organophosphate and carbamate resistance [[38]3]. Many insect species show rapid expansion and diversification of detoxification genes, as disclosed by their sequenced genomes. The expansion or restriction of detoxification genes likely helps insects adapt to their particular ecological niches and enable them to survive natural and man-made insecticide selection. The genomes of three major taxonomic mosquitoes, including Anopheles gambiae, Aedes aegypti, and Culex pipiens quinquefasciatus, have been analyzed and released to the public [[39]4-[40]6]. Of the three, Ae. aegypti has the largest genome size (1376 Mb), while C. p. quinquefasciatus has the largest number of predicted protein-coding genes (18883), which is 22% larger than that of Ae. aegypti and 52% larger than that of An. gambiae. The extra number of protein-coding genes partially results from the expansion of its three detoxification gene families. However, unlike An. gambiae and Ae. aegypti, which have large amounts of gene expression data, such as various expressed sequence tag libraries and transcriptomes, C. p. quinquefasciatus has limited gene expression resources, with only several salivary gland transcriptomes currently reported [[41]7,[42]8]. Knowledge of complete gene expression information is very important for the exploration of the functions of genes involved in specific biological processes and for the discovery of new candidate genes. In the present study, the three detoxification gene families of C. p. quinquefasciatus were subjected to phylogenetic analysis and compared with those of three other dipteran insects. The CCE and P450 families were found to undergo large gene expansion. Digital gene expression tag profiling (DGE) technology was used to perform a deep transcriptome analysis of C. p. quinquefasciatus during development and in response to organophosphate insecticide selection. The gene expression profiles obtained provide an invaluable resource for the identification of genes involved in the development and insecticide resistance of C. p. quinquefasciatus. Results and discussion C. p. quinquefasciatus detoxification gene families When 1e^-10 was used in the HMMER searches, 79, 203, and 17 candidate genes of CCEs, P450s, and GSTs were identified in the C. p. quinquefasciatus genome, respectively. After verified by community annotations, only 71 CCEs and 196 P450s were confirmed. The eight false positives for CCEs were lipases or conserved hypothetical proteins and the seven false positives for P450s were groucho protein, 25-hydroxyvitamin D-1 alpha hydroxylase, or conserved hypothetical proteins. When the search stringency was lessened to 2e^-2, 35 cytosolic GSTs were identified and supported by community annotations. Thus, a total of 302 detoxification genes were found in C. p. quinquefasciatus, including 71 CCE, 196 P450, and 35 GST genes, representing the widest gene expansion among the dipteran insect genomes sequenced thus far (Table  [43]1). Gene expansion was mainly observed in the CCE and P450 families compared with three other dipteran species. Table 1. Classification of detoxification gene families in Drosophila melanogaster, Anopheles gambiae, Aedes aegypti, and Culex pipiens quinquefasciatus D. melanogaster A. gambiae A. aegypti C. p. quinquefasciatus CCE __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ Dietary/detoxification^* __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ B class (α-esterases) __________________________________________________________________ 13 __________________________________________________________________ 16 __________________________________________________________________ 22 __________________________________________________________________ 30 (18) __________________________________________________________________ Hormone/semiochemical processing __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ D class (integument esterases) __________________________________________________________________ 3 __________________________________________________________________ 0 __________________________________________________________________ 0 __________________________________________________________________ 1 (0) __________________________________________________________________ E class (β-esterases) __________________________________________________________________ 2 __________________________________________________________________ 4 __________________________________________________________________ 2 __________________________________________________________________ 3 (3) __________________________________________________________________ F class (dipteran JH esterases) __________________________________________________________________ 3 __________________________________________________________________ 6 __________________________________________________________________ 7 __________________________________________________________________ 13 (5) __________________________________________________________________ G class (lepidopteran JH esterases) __________________________________________________________________ 0 __________________________________________________________________ 4 __________________________________________________________________ 6 __________________________________________________________________ 9 (6) __________________________________________________________________ Neuro/developmental __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ H class (glutactins) __________________________________________________________________ 5 __________________________________________________________________ 10 __________________________________________________________________ 7 __________________________________________________________________ 6 (5) __________________________________________________________________ I class (unknown) __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 (1) __________________________________________________________________ J class (acetylcholinesterases) __________________________________________________________________ 1 __________________________________________________________________ 2 __________________________________________________________________ 2 __________________________________________________________________ 2 (2) __________________________________________________________________ K class (gliotactins) __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 (1) __________________________________________________________________ L class (neuroligins) __________________________________________________________________ 4 __________________________________________________________________ 5 __________________________________________________________________ 5 __________________________________________________________________ 3 (3) __________________________________________________________________ M class (neurotactins) __________________________________________________________________ 2 __________________________________________________________________ 2 __________________________________________________________________ 2 __________________________________________________________________ 2 (2) __________________________________________________________________ Total __________________________________________________________________ 35 __________________________________________________________________ 51 __________________________________________________________________ 55 __________________________________________________________________ 71 (46) __________________________________________________________________ P450 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CYP2 __________________________________________________________________ 6 __________________________________________________________________ 10 __________________________________________________________________ 11 __________________________________________________________________ 14 (12) __________________________________________________________________ CYP3 (include CYP6 and CYP9) __________________________________________________________________ 36 __________________________________________________________________ 42 __________________________________________________________________ 84 __________________________________________________________________ 88 (72) __________________________________________________________________ CYP4 __________________________________________________________________ 32 __________________________________________________________________ 45 __________________________________________________________________ 59 __________________________________________________________________ 83 (58) __________________________________________________________________ Mitochondrial __________________________________________________________________ 11 __________________________________________________________________ 9 __________________________________________________________________ 10 __________________________________________________________________ 11 (8) __________________________________________________________________ Total __________________________________________________________________ 85 __________________________________________________________________ 106 __________________________________________________________________ 164 __________________________________________________________________ 196 (150) __________________________________________________________________ GST __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ Delta __________________________________________________________________ 11 __________________________________________________________________ 12 __________________________________________________________________ 8 __________________________________________________________________ 14 (13) __________________________________________________________________ Epsilon __________________________________________________________________ 14 __________________________________________________________________ 8 __________________________________________________________________ 8 __________________________________________________________________ 10 (6) __________________________________________________________________ Omega __________________________________________________________________ 5 __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 (1) __________________________________________________________________ Sigma __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 1 (1) __________________________________________________________________ Theta __________________________________________________________________ 4 __________________________________________________________________ 2 __________________________________________________________________ 4 __________________________________________________________________ 6 (6) __________________________________________________________________ Zeta __________________________________________________________________ 2 __________________________________________________________________ 1 __________________________________________________________________ 1 __________________________________________________________________ 0 (0) __________________________________________________________________ Others __________________________________________________________________ 0 __________________________________________________________________ 3 __________________________________________________________________ 3 __________________________________________________________________ 3 (2) __________________________________________________________________ Total 37 28 26 35 (29) [44]Open in a new tab *The dietary/detoxification functional group follows the new system proposed by Oakeshott et al. (2010). Data of D. melanogaster, An. gambiae, and Ae. aegypti are taken from Oakeshott et al. (2010). The number of C. p. quinquefasciatus genes in brackets is from the DGE libraries. CCE, carboxyl/cholinesterases; P450, cytochrome P450 monooxygenases; GST, glutathione S-transferases. Seventy-one CCE sequences were detected in the C. p. quinquefasciatus genome, which was approximately 39% and 29% gene-expanded compared with An. gambiae and Ae. aegypti, respectively, and 2-fold the number of CCEs found in D. melanogaster (Table  [45]1, Additional file [46]1). The new functional assignment proposed by Oakeshott et al. [[47]9] was used to designate the clades in the CCE phylogeny (Figure  [48]1). A total of 11 clades, representing dietary/detoxification, hormone/semiochemical processing, and neuro/developmental functions, were obtained. The numbers of C. p. quinquefasciatus CCEs in the three functional classes were 30, 26, and 15, respectively (Table  [49]1). Figure 1. [50]Figure 1 [51]Open in a new tab Unrooted distance neighbor-joining tree showing the phylogeny of carboxyl/cholinesterases (CCEs) from the genome of Culex pipiens quinquefasciatus in relation to CCEs from Drosophila melanogaster (in italics). CCEs of C. p. quinquefasciatus undetected in DGE libraries are shown in bold. The percentage of bootstrap confidence values greater than 70% (1000 replicates) is shown at the nodes. The functional assignment of clades follows the new system proposed by Oakeshott et al. [[52]9]. The number of CCEs in the neuro/developmental class was relatively conserved among the four dipteran insects. Similar conservation occurs in hymenopteran (Nasonia vitripennis, A. mellifera) and coleopteran (Tribolium castaneum) genomes [[53]9], which reflects the relatively ancient origins of this class, where all members are catalytically inactive except for the acetylcholinesterases. CCEs in dietary/detoxification and hormone/semiochemical processing classes expanded on the C. p. quinquefasciatus genome compared with the three other dipteran insects. Expansion mainly occurred in α-esterases (30 genes in clade B) and juvenile hormone esterases (22 genes in clades F and G). For α-esterases Culex showed rapid radiation in two clusters, which contained six and seven members, respectively, and Aedes displayed an obvious expansion in one cluster with five α-esterases (Figure  [54]2). The α-esterases are thought to be involved in the development of metabolic resistance to insecticides; some examples include αE7 of Lucilia cuprina[[55]10] and esterase A (CpipJ_CPIJ013918) and esterase B (CpipJ_CPIJ013917) of C. p. quinquefasciatus[[56]3]. Unlike the rapid radiation of other α-esterases, the esterase A and esterase B were well conserved: secure 1:1:1 orthologs were found across Culex, Anopheles and Aedes (Figure  [57]2). Twenty-eight other α-esterases of the species are probably involved in the metabolism of endotoxins or naturally occurring dietary constituents. The α- and β-based nomenclatures are applied extensively to esterase isozymes in Drosophila according to their preferential hydrolysis of isomeric artificial substracts, α- and β-naphthyl acetate, respectively [[58]11]. The nomenclatures in themselves represent no broad biological distinctions. In the culicines, two esterase genes involved in organophosphate resistance are commonly designated esterase A and esterase B based on their ability to use preferentially α- or β-naphthyl acetate in the presence of equal quantities of both substrates [[59]3,[60]12]. Figure 2. [61]Figure 2 [62]Open in a new tab Unrooted distance neighbor-joining tree showing the phylogeny of α-esterases from the genome of Culex pipiens quinquefasciatus in relation to those from Aedes aegypti (initiated with ‘AAEL’) and Anopheles gambiae (initiated with ‘agCP’ or ‘ebiP’). The percentage of bootstrap confidence values greater than 70% (1000 replicates) is shown at the nodes. The large expansion of juvenile hormone esterases (JHEs) on the C. p. quinquefasciatus genome is interesting: 22 compared with 3 to 13 in three other dipteran genomes and 2 in the hymenopteran and coleopteran genomes [[63]9]. When compared among the three mosquito species, the expansion in the Culex happened in three clusters, which included five, three, and four JHEs, respectively, and two JHEs were specific for the Culex (Figure  [64]3). Among 22 JHEs, 10 have typical GQSAG nucleophilic elbow motifs around the catalytic site and 6 have varied motifs, such as GH (W/N/Y) SAG. Empirical functional data are required to determine the identity of juvenile hormone esterases. Figure 3. [65]Figure 3 [66]Open in a new tab Unrooted distance neighbor-joining tree showing the phylogeny of juvenile hormone esterases from the genome of Culex pipiens quinquefasciatus in relation to those from Aedes aegypti (initiated with ‘AAEL’) and Anopheles gambiae (initiated with ‘agCP’). The percentage of bootstrap confidence values greater than 70% (1000 replicates) is shown at the nodes. The secreted β-esterases (clade E) are comparatively conserved among the three mosquito species: from 2 to 4 β-esterase genes were found in mosquito genomes, largely different from the expansion (11 β-esterase genes) found in N. vitripennis genome [[67]9]. Some members of the β-esterases have well-described functions in other insects, such as E4 and FE4 esterases, which confer OP insecticide resistance in Myzus persicae[[68]13], and the antennal Apo1PDE esterase of the silkworm Antheraea polyphemus, which degrades sex pheromones [[69]14]. The functions of the β-esterases in Culex need to be further investigated. Compared with the P450 genes of D. melanogaster and An. gambiae, those of C. p. quinquefasciatus expanded by 130% and 85%, respectively, and were slightly more than the number of those in Ae. aegypti (Table  [70]1). Expansion was most pronounced in the CYP4 clade, where, among 83 CYP4 genes, 46 belonged to CYP325 (Figure  [71]4). Some CYP325s were conserved among the three mosquito species, such as CYP325E, CYP325K, and CYP325G; some only expanded in the Culex and Aedes genomes, such as CYP325X, CYP325Y; even Aedes and Anopheles had their specific CYP325s (Figure  [72]5). However, Culex is not evolved species-specific large CYP325 gene expansion. The physiological function of the CYP325 clade in insects remains unclear, except that a CYP325A3 gene was found to be overexpressed in a permethrin-resistant strain of An. gambiae[[73]15]. But this gene does not have clear orthologs in Culex or Aedes (Figure  [74]5), indicating that the resistance mechanism of CYP325A3 overexpression may be limited to Anopheles. Other large clades of CYP4 genes included CYP4H, CYP4D, CYP4J, and CYP4C (Figure  [75]4), members of which are involved in DDT and pyrethroid insecticide resistance in mosquitoes [[76]15,[77]16]. The P450 genes were also expanded in Ae. aegypti compared to An. gambiae, but this expansion was most prominent in the CYP9 of CYP3 family: 37 CYP9 genes in Ae. aegypti contrasting to just 9 in An. gambiae[[78]15]. Figure 4. [79]Figure 4 [80]Open in a new tab Unrooted distance neighbor-joining tree of P450 CYP4 genes from the genome of Culex pipiens quinquefasciatus. Greater than 70% support in 1000 bootstrap replications is indicated at the corresponding nodes. Genes undetected in DGE libraries are shown in bold. P450s were named by the P450 nomenclature committee ( [81]http://drnelson.uthsc.edu/CytochromeP450.html). Genes with v1 and v2 designation are very recent duplications and have not yet been assigned individual gene names. Figure 5. [82]Figure 5 [83]Open in a new tab Unrooted distance neighbor-joining tree showing the phylogeny of P450 CYP325 genes from the genome of Culex pipiens quinquefasciatus (initiated with ‘CP’) in relation to those from Aedes aegypti (initiated with ‘AA’) and Anopheles gambiae (initiated with ‘AG’). The percentage of bootstrap confidence values greater than 70% (1000 replicates) is shown at the nodes. While the total number of CYP3 members (including CYP6 and CYP9) in C. p. quinquefasciatus was similar to that in Ae. aegypti, C. p. quinquefasciatus had more CYP6 members and few CYP9 members than Ae. aegypti[[84]17]. Sixty-three CYP6 genes of C. p. quinquefasciatus were mainly distributed in the CYP6BY, CYP6N, CYP6M, CYP6AG, and CYP6Z groups (Figure  [85]6A), and 25 CYP9 genes were mainly distributed in the CYP9J and CYP9M groups (Figure  [86]6B). Members of CYP6 have been implicated in resistance to a broad range of insecticides (e.g., OPs, pyrethroids, DDT, and neonicotinoids) in many insects [[87]15,[88]18-[89]20], while less evidence implicates CYP9s in the detoxification of insecticides. In 11 mitochondrial P450s, 7 genes belonged to CYP12F (Figure  [90]6C). Members of the CYP12 clade are involved in DDT resistance in An. gambiae[[91]15] and D. melanogaster[[92]21]. Several large clusters of P450 genes were found in the C. p. quinquefasciatus genome, such as a cluster of 13 CYP9 genes on supercontig 278 and a cluster of 12 CYP6 genes on supercontig 869 (Additional file [93]2). Figure 6. [94]Figure 6 [95]Open in a new tab Unrooted distance neighbor-joining tree of the P450 CYP6 (A), CYP9 (B), CYP2, and mitochondrial P450 genes (C) from the genome of Culex pipiens quinquefasciatus. The presentation format is same as Figure  [96]4. C. p. quinquefasciatus had 35 cytosolic GST genes belonging to the Delta, Epsilon, Omega, Sigma, and Theta clades (Table  [97]1). The majority of the GSTs were represented by the Delta and Epsilon clades, which are insect-specific clades and contain the majority of the GSTs associated with detoxification in insecticides [[98]22]. Many members of the Delta and Epsilon clades expanded locally in the C. p. quinquefasciatus genome, such as 12 Delta GSTs in supercontig 36 and 10 Epsilon GSTs in supercontig 1224 (Additional file [99]3). Delta 1, 6, and 7, and Epsilon 2, 4, and 8 showed 1:1:1 orthologies across the three mosquito genomes while Delta 11 and Epsilon 3 clades expanded on the Culex genome (Figure  [100]7). Furthermore, Culex had specific Delta and Epsilon clades, which did not have clear orthologs in other two mosquito species (Figure  [101]7). Unlike hymenopteran insects, where the Sigma class of GSTs expands and is thought to play an important role in protection against oxidative stress [[102]9], only one Sigma GST gene was located in the genomes of dipteran insects. The Omega, Theta, and Zeta classes of GSTs are ubiquitously distributed in nature, but no Zeta GST has been identified in C. p. quinquefasciatus. Figure 7. [103]Figure 7 [104]Open in a new tab Unrooted distance neighbor-joining tree showing the phylogeny of delta and epsilon glutathione S-transferases from the genome of Culex pipiens quinquefasciatus in relation to those from Aedes aegypti (initiated with ‘AA’) and Anopheles gambiae (initiated with ‘Ag’). The percentage of bootstrap confidence values greater than 70% (1000 replicates) is shown at the nodes. Why does C. p. quinquefasciatus have such an abundance of detoxification genes compared to other insect species? Several biological characteristics of mosquitoes may provide clues. The aquatic breeding sites of larvae and pupae contain numerous microorganisms, phenolic products of plant degradation, and pesticides. Adults feed on plant nectars and mammalian blood, which contain some harmful substances, such as heme and plant toxins. As viral pathogen vectors, mosquitoes have to deal with the generation of toxic endogenous compounds and reactive oxygen species during the immune response. But these cannot account for the gene expansion in C. p. quinquefasciatus compared to Anopheles and Aedes species. Perhaps its more polluted larval habitat and more diverse geographic range have exerted a greater selective pressure on C. p. quinquefasciatus so as to produce a larger repertoire of detoxification enzymes. DGE library sequencing and mapping to genome Using the DGE technique, which measures absolute, rather than relative, gene expression levels, the transcriptome was analyzed during the development of C. p. quinquefasciatus. For the five DGE libraries, 3.5 million to 3.8 million raw tags were generated (Table  [105]2). The ratio of low quality reads was lower than 0.1% in all libraries except in that of the adult SG (Additional file [106]4). The number of distinct clean tags ranged from 113095 to 156922 (Table  [107]2). The distribution of the total tags and distinct tags over different tag abundance showed similar patterns among the five libraries, indicating the normality of the DGE data (Figure  [108]8). Highly expressed tags with copy numbers larger than 100 dominated in the distribution of the total clean tags, while tags with low expression and copy numbers smaller than 5 occupied the majority of the distinct clean tags (Figure  [109]8). Pearson correlations between development stages ranged from 0.76 to 0.95, indicating uneven transcriptome divergence during mosquito development or the existence of lowly expressed genes not detected, while the Pearson correlation between the two third instar larva libraries of the SG and S-lab strains was relatively high (0.98), reflecting the reproducibility of DGE sequencing (Additional file [110]5). Among 20306 reference genes in VectorBase, a total of 13314 (65.6%) reference genes were mapped by unambiguous tags combining the five DGE libraries. Sequencing saturation analysis showed that the increase in the identified gene number nearly stopped when the number of reads reached 3 million (Additional file [111]6). Table 2. DGE sequencing statistics __________________________________________________________________ SG __________________________________________________________________ S-lab __________________________________________________________________ __________________________________________________________________ Egg __________________________________________________________________ 3rd Larva __________________________________________________________________ Pupa __________________________________________________________________ Adult __________________________________________________________________ 3rd Larva __________________________________________________________________ N % N % N % N % N % Total raw tag __________________________________________________________________ 3762501 __________________________________________________________________ __________________________________________________________________ 3790500 __________________________________________________________________ __________________________________________________________________ 3524500 __________________________________________________________________ __________________________________________________________________ 3769500 __________________________________________________________________ __________________________________________________________________ 3727501 __________________________________________________________________ __________________________________________________________________ Total clean tag __________________________________________________________________ 3759150 __________________________________________________________________ __________________________________________________________________ 3787346 __________________________________________________________________ __________________________________________________________________ 3521826 __________________________________________________________________ __________________________________________________________________ 3734683 __________________________________________________________________ __________________________________________________________________ 3724228 __________________________________________________________________ __________________________________________________________________ Distinct clean tag __________________________________________________________________ 156922 __________________________________________________________________ __________________________________________________________________ 118011 __________________________________________________________________ __________________________________________________________________ 132376 __________________________________________________________________ __________________________________________________________________ 113095 __________________________________________________________________ __________________________________________________________________ 143277 __________________________________________________________________ __________________________________________________________________ Distinct tag mapping to gene __________________________________________________________________ 59206 __________________________________________________________________ 37.7 __________________________________________________________________ 42706 __________________________________________________________________ 36.2 __________________________________________________________________ 45666 __________________________________________________________________ 34.5 __________________________________________________________________ 41254 __________________________________________________________________ 36.5 __________________________________________________________________ 51264 __________________________________________________________________ 35.8 __________________________________________________________________ Distinct unambiguous tag mapping to gene __________________________________________________________________ 48378 __________________________________________________________________ 30.8 __________________________________________________________________ 34772 __________________________________________________________________ 29.5 __________________________________________________________________ 37693 __________________________________________________________________ 28.5 __________________________________________________________________ 34449 __________________________________________________________________ 30.5 __________________________________________________________________ 39475 __________________________________________________________________ 27.6 __________________________________________________________________ Unambiguous tag-mapped genes __________________________________________________________________ 10917 __________________________________________________________________ 53.8 __________________________________________________________________ 9808 __________________________________________________________________ 48.3 __________________________________________________________________ 10252 __________________________________________________________________ 50.5 __________________________________________________________________ 9759 __________________________________________________________________ 48.1 __________________________________________________________________ 10976 __________________________________________________________________ 54.1 __________________________________________________________________ Distinct tag mapping to genome __________________________________________________________________ 48679 __________________________________________________________________ 31.0 __________________________________________________________________ 36533 __________________________________________________________________ 31.0 __________________________________________________________________ 40063 __________________________________________________________________ 30.3 __________________________________________________________________ 35062 __________________________________________________________________ 31.0 __________________________________________________________________ 47035 __________________________________________________________________ 32.8 __________________________________________________________________ Total unknown tag __________________________________________________________________ 424236 __________________________________________________________________ 11.3 __________________________________________________________________ 397001 __________________________________________________________________ 10.5 __________________________________________________________________ 442991 __________________________________________________________________ 12.6 __________________________________________________________________ 415816 __________________________________________________________________ 11.1 __________________________________________________________________ 355720 __________________________________________________________________ 9.6 __________________________________________________________________ Distinct unknown tag 49037 31.2 38772 32.9 46647 35.2 36779 32.5 44978 31.4 [112]Open in a new tab For each number (N) of tags or tag-mapped genes, the associated percentage (%) regarding the distinct clean tags (156922), the reference genes (20306), or total clean tags (3759150) is indicated. Figure 8. [113]Figure 8 [114]Open in a new tab Distribution of total clean tags and distinct clean tags over different tag abundance in each DGE library. Numbers in square brackets indicate the range of copy numbers for a specific category of tags. Numbers in parentheses show the total number of tags in that category. GO and KEGG pathway classification of the genes expressed in C. p. quinquefasciatus GO and KEGG pathway assignments were performed on the expressed genes to classify their functions and dissect the molecular events behind the expressed genes from the five DGE libraries. Of the 13314 genes, 2391 genes could be categorized into 48 GO function groups, among which binding, catalytic activity, metabolic process, cellular process, and cell part or cell were predominant categories. In contrast, few genes were classified into groups for antioxidant activity, rhythmic process, pigmentation, cell wall organization, and carbon utilization (Figure  [115]9). A total of 1629 genes were mapped to 125 KEGG pathways. The most-represented pathways were metabolism (578 genes), microbial metabolism in diverse environments (101 genes), RNA transport (100 genes), spliceosome (95 genes), and protein processing in endoplasmic reticulum (95 genes). Figure 9. [116]Figure 9 [117]Open in a new tab Gene ontology classification of the genes expressed in Culex pipiens quinquefasciatus. Life-stage specific detected genes Comparing the four DGE libraries of the SG strain, 2666 genes were detected in only one library, and their functions and involvement largely diverged (Additional file [118]7). Among 302 detoxification genes, 225 (75%) were detected for expression in at least one DGE library (Table  [119]1). About 25% of the genes that were not detected in any library were either not constitutively expressed in the life stages or were possibly untranscribed pseudogenes. Among expressed detoxification genes, 30% of the CCE genes, 25% of the P450 genes, and 72% of the GST genes were expressed in all life stages, indicating that they play a general housekeeping or detoxification function; some detoxification genes were developmental-stage specific (Table  [120]3). Around 28% of the CCE genes were detected in only one stage, and two α-esterases, CpipJ CPIJ018232 and CpipJ CPIJ004752, were expressed at extremely high levels in larvae and pupae, respectively. Two insecticide-resistance-responsible esterases, CpipJ_CPIJ013917 for encoding esterase B and CpipJ CPIJ013918 for encoding esterase A, were expressed in all life stages, and their expression levels in larvae were higher than in adults. Only two GST genes showed stage-specific expression. Of the P450 genes, around 25% were detected in only one stage and most of them belonged to CYP4. Most strikingly, of 46 CYP325 genes, representing the widest expansion within the P450 family, 27 genes (59%) were detectable for expression and nearly half of the expressed genes (12 CYP325) were developmentally regulated. The larva and adult are feeding stages while the egg and pupae are non-feeding. Hence enzymes expressed specifically or highly in larva or adult are important in digestion and detoxification of dietary component whereas those in egg or pupae are vital for detoxification of metamorphosis byproducts or synthesis of specific hormones. Table 3. Developmental-stage specifically expressed genes of carboxylcholinesterase (CCE), glutathione-S-transferase (GST), and cytochrome P450 monooxygenase (P450) Family Stage Gene Class TPM CCE __________________________________________________________________ Egg __________________________________________________________________ CpipJ_CPIJ007135 __________________________________________________________________ F __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ016026 __________________________________________________________________ B __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ009768 __________________________________________________________________ M __________________________________________________________________ 0.53 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ013027 __________________________________________________________________ F __________________________________________________________________ 0.53 __________________________________________________________________ __________________________________________________________________ Larva __________________________________________________________________ CpipJ_CPIJ016341 __________________________________________________________________ B __________________________________________________________________ 0.26 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ016682 __________________________________________________________________ G __________________________________________________________________ 2.00 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ018231 __________________________________________________________________ B __________________________________________________________________ 5.81 __________________________________________________________________ __________________________________________________________________ Pupa __________________________________________________________________ CpipJ_CPIJ018232 __________________________________________________________________ B __________________________________________________________________ 32.74 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ013679 __________________________________________________________________ B __________________________________________________________________ 0.57 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ013175 __________________________________________________________________ F __________________________________________________________________ 13.63 __________________________________________________________________ __________________________________________________________________ Adult __________________________________________________________________ CpipJ_CPIJ004752 __________________________________________________________________ B __________________________________________________________________ 118.69 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ016681 __________________________________________________________________ G __________________________________________________________________ 0.54 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ005122 __________________________________________________________________ G __________________________________________________________________ 5.62 __________________________________________________________________ GST __________________________________________________________________ Larva __________________________________________________________________ CpipJ_CPIJ002674 __________________________________________________________________ Delta __________________________________________________________________ 3.96 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ014051 __________________________________________________________________ Theta __________________________________________________________________ 7.66 __________________________________________________________________ P450 __________________________________________________________________ Egg __________________________________________________________________ CpipJ_CPIJ019395 __________________________________________________________________ CYP4C52 v2 __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ009478 __________________________________________________________________ CYP4D42 v1 __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ017198 __________________________________________________________________ CYP325BF1 __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ003361 __________________________________________________________________ CYP6BY2 __________________________________________________________________ 0.80 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ017244 __________________________________________________________________ CYP304B5 __________________________________________________________________ 2.00 __________________________________________________________________ __________________________________________________________________ Larva __________________________________________________________________ CpipJ_CPIJ009474 __________________________________________________________________ CYP4D40 __________________________________________________________________ 0.26 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ010228 __________________________________________________________________ CYP12F12 v1 __________________________________________________________________ 0.26 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ015428 __________________________________________________________________ CYP6Z10 __________________________________________________________________ 0.26 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ001755 __________________________________________________________________ CYP4J19 __________________________________________________________________ 0.26 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ014220 __________________________________________________________________ CYP9M12 __________________________________________________________________ 0.53 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ014219 __________________________________________________________________ CYP9M11P __________________________________________________________________ 1.06 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ014730 __________________________________________________________________ CYP325AA2 __________________________________________________________________ 1.06 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ007188 __________________________________________________________________ CYP4H30 __________________________________________________________________ 1.32 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ007091 __________________________________________________________________ CYP325Y6 v2 __________________________________________________________________ 1.58 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ011127 __________________________________________________________________ CYP4H34 __________________________________________________________________ 1.85 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ010075 __________________________________________________________________ CYP4H35 __________________________________________________________________ 2.11 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ003376 __________________________________________________________________ CYP6BY4 __________________________________________________________________ 2.64 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ007089 __________________________________________________________________ CYP325Y4 __________________________________________________________________ 4.22 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ015223 __________________________________________________________________ CYP6F4 __________________________________________________________________ 6.6 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ010858 __________________________________________________________________ CYP6F1 __________________________________________________________________ 47.0 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ014942 __________________________________________________________________ CYP305A10 __________________________________________________________________ 1.00 __________________________________________________________________ __________________________________________________________________ Pupa __________________________________________________________________ CpipJ_CPIJ001754 __________________________________________________________________ CYP4J6 __________________________________________________________________ 0.28 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ007095 __________________________________________________________________ CYP325Y9 __________________________________________________________________ 0.28 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ005685 __________________________________________________________________ CYP325BB2 __________________________________________________________________ 0.28 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ010810 __________________________________________________________________ CYP325BC2 __________________________________________________________________ 0.28 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ004410 __________________________________________________________________ CYP6Z11 __________________________________________________________________ 0.85 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ009477 __________________________________________________________________ CYP4D19 __________________________________________________________________ 1.42 __________________________________________________________________ __________________________________________________________________ Adult __________________________________________________________________ CpipJ_CPIJ019587 __________________________________________________________________ CYP6Z14 __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ006951 __________________________________________________________________ CYP325BG2P __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ010542 __________________________________________________________________ CYP9J38 __________________________________________________________________ 0.27 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ003377 __________________________________________________________________ CYP6BY5 __________________________________________________________________ 0.54 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ015960 __________________________________________________________________ CYP325BD1 __________________________________________________________________ 1.87 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ011837 __________________________________________________________________ CYP325V2 __________________________________________________________________ 2.68 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ019586 __________________________________________________________________ CYP6Z13P __________________________________________________________________ 2.68 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ006950 __________________________________________________________________ CYP325BG1 __________________________________________________________________ 3.21 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ010203 __________________________________________________________________ CYP9AM1 __________________________________________________________________ 5.36 __________________________________________________________________ __________________________________________________________________ __________________________________________________________________ CpipJ_CPIJ015957 __________________________________________________________________ CYP325G4 __________________________________________________________________ 51.68 __________________________________________________________________ CpipJ_CPIJ009471 CYP4AR4 2.00 [121]Open in a new tab TPM, number of transcripts per million clean tags. For gene expansion clusters of detoxification genes, the expression profiles were different among the members. For example, among the six members of one expanded α-esterase cluster (Figure  [122]2), CpipJ_CPIJ007825 was detected for expression in pupae and adults while the other five members were not detected in any stage. For the seven members of another expanded α-esterase cluster (Figure  [123]2), CpipJ_CPIJ016025, CpipJ_CPIJ005694, and CpipJ_CPIJ008749 were not detected for expression; CpipJ_CPIJ000049 and CpipJ_CPIJ000051 were expressed in pupae and adults, CpipJ_CPIJ000050 in larvae and pupae, and CpipJ_CPIJ016026 only in eggs. Similar phenomenon was observed in the three expansion clusters of juvenile hormone esterases (Figure  [124]3). For the five members of cluster, only CpipJ_CPIJ013027 was detected for expression and in eggs. No expression was found in the three members of cluster. For the four members of cluster, three were detected for expression: CpipJ_CPIJ016681 and CpipJ_CPIJ016682 in adults, and CpipJ_CPIJ017763 in larvae and adults. The different expression patterns of these duplicated detoxification genes are probably indicative of their subfunctionalization or retrogression as pseudogenes. Differentially expressed genes between parathion resistant and susceptible larvae When the third instar DGE library of the parathion-resistant strain SG was compared with the same stage in the susceptible strain S-lab, a total of 1511 genes showed different expression levels, among which 619 genes had up-regulated expression levels in the SG strain (Additional file [125]8). The most prominent GO functions of these up-regulated genes were endopeptidase or serine-type peptidase activity, such as genes encoding trypsin, chymotrypsin, mast cell protease 2, urokinase-type plasminogen activator, and elastase. However, not all of the differentially expressed genes are responsible for parathion resistance because comparison strains were not selected from the same panmictic population such that genetic background differences could be ruled out. A total of 15 detoxification genes were expressed at higher levels in the SG strain, including 2 CCEs, 6 GSTs, and 7 P450s (Table  [126]4). The expression of the known esterase B gene, CpipJ CPIJ013917, increased 16-fold in the resistant strain, while the esterase A gene, CpipJ CPIJ013918, did not show differential expression between the two strains. Three Epsilon GSTs had prominent involvement in resistance, as previously reported in DDT- and OP-resistant mosquitoes and houseflies [[127]22,[128]23]. Seven P450 genes with elevated expression in the resistant strain belonged to either the CYP9 or CYP6 groups, which are usually implicated in pyrethroid resistance in mosquitoes and other species [[129]18]. P450 monooxygenases are relatively less commonly involved than carboxylesterases in resistance to OP insecticides, although evidence shows that CYP6A1 from Musca domestica and CYP6A2 from Drosophila are capable of metabolizing diazinon [[130]24,[131]25]. Unless direct evidence demonstrates the detoxification or sequestration of insecticide compounds by P450s, the conclusion that the 7 up-regulated P450 genes are involved in OP resistance is too early to draw. Most of the 15 detoxification genes were expressed in all life stages, while 6 were expressed only in certain stages, especially Theta GST (CpipJ CPIJ014051), CYP9J34 (CpipJ CPIJ010546), and CYP6F1 (CpipJ CPIJ010858), which were not found in adults. The different responses of detoxification genes may account for the different resistance levels between the larval and adult stage in some circumstances. Table 4. Detoxification genes up-regulated in parathion resistant larvae of the SG strain Gene family Classification Gene number log[2]Ratio^* Expression stage CCE __________________________________________________________________ α esterases __________________________________________________________________ CpipJ_CPIJ013917 __________________________________________________________________ 4.4 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ JH esterases __________________________________________________________________ CpipJ_CPIJ002073 __________________________________________________________________ 1.7 __________________________________________________________________ All __________________________________________________________________ GST __________________________________________________________________ Epsilon __________________________________________________________________ CpipJ_CPIJ018629 __________________________________________________________________ 8.7 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ Epsilon __________________________________________________________________ CpipJ_CPIJ018632 __________________________________________________________________ 5.0 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ Epsilon __________________________________________________________________ CpipJ_CPIJ018627 __________________________________________________________________ 3.5 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ Theta __________________________________________________________________ CpipJ_CPIJ014051 __________________________________________________________________ 2.2 __________________________________________________________________ Larva __________________________________________________________________ __________________________________________________________________ Delta __________________________________________________________________ CpipJ_CPIJ002675 __________________________________________________________________ 1.9 __________________________________________________________________ Egg, larva, adult __________________________________________________________________ __________________________________________________________________ Others __________________________________________________________________ CpipJ_CPIJ014694 __________________________________________________________________ 1.1 __________________________________________________________________ All __________________________________________________________________ P450 __________________________________________________________________ CYP9J34 __________________________________________________________________ CpipJ_CPIJ010546 __________________________________________________________________ 4.0 __________________________________________________________________ Larva, pupa __________________________________________________________________ __________________________________________________________________ CYP9J40 __________________________________________________________________ CpipJ_CPIJ010543 __________________________________________________________________ 3.3 __________________________________________________________________ Larva, pupa, adult __________________________________________________________________ __________________________________________________________________ CYP6AG11 __________________________________________________________________ CpipJ_CPIJ002537 __________________________________________________________________ 3.0 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ CYP6BZ2 __________________________________________________________________ CpipJ_CPIJ005956 __________________________________________________________________ 2.6 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ CYP9AE1 __________________________________________________________________ CpipJ_CPIJ000655 __________________________________________________________________ 2.0 __________________________________________________________________ All __________________________________________________________________ __________________________________________________________________ CYP6F1 __________________________________________________________________ CpipJ_CPIJ010858 __________________________________________________________________ 1.3 __________________________________________________________________ Larva __________________________________________________________________ CYP9AL1 CpipJ_CPIJ012470 1.1 Larva, adult [132]Open in a new tab *Ratio, TPM of SG/TPM of Slab. TPM, number of transcripts per million clean tags. Conclusion C. p. quinquefasciatus is an important vector that transmits human diseases different from those by An. gambiae and Ae. aegypti. The lack of transcriptomic data available for this species has hampered characterization of the molecular mechanisms underlying the different biological characters of the three major mosquito vectors. The five DGE libraries described in the present study represent a dramatic expansion of the existing transcriptomic sequence available for C. p. quinquefasciatus. This expansion will facilitate the investigation of the fundamental biology of C. p. quinquefasciatus and its pathogenic interactions. In addition, the results of the present study provide new insights into the functions and evolution of the three detoxification gene families of mosquitoes. A larger number of detoxification genes were identified on the genome of C. p. quinquefasciatus compared with three other dipteran insect genomes, representing the widest gene expansion sequenced thus far. Comparative genomic analysis suggested that gene expansion mainly occurs in α-esterases, juvenile hormone esterases, and P450 CYP325. Some detoxification genes were expressed in all developmental stages, while some were developmentally regulated. The expression profiles were different among the members of gene expansion clusters, probably indicative of their subfunctionalization or retrogression as pseudogenes. Fifteen detoxification genes showed the potential to take part in the parathion resistance of Culex, including unexpected P450 genes. Methods Mosquito strains Mosquito strains of C. p. quinquefasciatus used included S-lab, which was OP-susceptible and reared at the laboratory without any contact with insecticides for many years [[133]26] and Shengui (SG), a field population collected in Foshan, Guangdong Province, in 2007 and constantly treated with parathion at the laboratory. The parathion-resistance of SG was 115-fold that of S-lab before use in the DGE analysis. The mosquitoes were maintained at 26°C ± 1°C and a long-day photoperiod (14 h light/10 h darkness cycle). Fifty egg rafts, forty third instar larvae, forty pupae, and forty adults (twenty females and twenty males) of SG and forty third instar larvae of S-lab were collected and frozen at −80°C for further analysis. Identification and phylogenetic classification of detoxification genes Sequences encoding GSTs, P450s, and CCEs were identified from the protein set of the C. p. quinquefasciatus whole genome sequencing database at the Broad Institute ( [134]http://www.broadinstitute.org/annotation/genome/culex_pipiens) using the HMMER program ( [135]http://hmmer.janelia.org/) with the protein domains for CCEs (PF00135), GSTs (PF00043 and PF02798), and P450s (PF00067) as described in the Pfam database. A significance value of 1e^-10 was used in the searches for CCEs and P450 and 2e^-2 for GSTs. Community annotations and VectorBase were referred to verify the searches [[136]27]. Those candidate genes not supported by the community annotations as CCEs, P450 or GST were not accounted. P450s were named by the P450 nomenclature committee ( [137]http://drnelson.uthsc.edu/CytochromeP450.html). Known detoxification genes from An. gambiae, D. melanogaster[[138]28], and Ae. aegypti[[139]17] were used as references for the phylogenetic