Data from: De novo transcriptome analysis of the common New Zealand stick insect Clitarchus hookeri (Phasmatodea) reveals genes involved in olfaction, digestion and sexual reproduction
Wu, Chen, Landcare Research, University of Auckland
Crowhurst, Ross N
Dennis, Alice B., Swiss Federal Institute of Technology in Zurich
Twort, Victoria G., University of Auckland
Newcomb, Richard D., University of Auckland
Ross, Howard A., University of Auckland
Buckley, Thomas R., University of Auckland
Published Jun 08, 2017 on Dryad.
Cite this dataset
Wu, Chen et al. (2017). Data from: De novo transcriptome analysis of the common New Zealand stick insect Clitarchus hookeri (Phasmatodea) reveals genes involved in olfaction, digestion and sexual reproduction [Dataset]. Dryad. https://doi.org/10.5061/dryad.p52sq
Phasmatodea, more commonly known as stick insects, have been poorly studied at the molecular level for several key traits, such as components of the sensory system and regulators of reproduction and development, impeding a deeper understanding of their functional biology. Here, we employ de novo transcriptome analysis to identify genes with primary functions related to female odour reception, digestion, and male sexual traits in the New Zealand common stick insect Clitarchus hookeri (White). The female olfactory gene repertoire revealed ten odorant binding proteins with three recently duplicated, 12 chemosensory proteins, 16 odorant receptors, and 17 ionotropic receptors. The majority of these olfactory genes were over-expressed in female antennae and have the inferred function of odorant reception. Others that were predominantly expressed in male terminalia (n = 3) and female midgut (n = 1) suggest they have a role in sexual reproduction and digestion, respectively. Over-represented transcripts in the midgut were enriched with digestive enzyme gene families. Clitarchus hookeri is likely to harbour nine members of an endogenous cellulase family (glycoside hydrolase family 9), two of which appear to be specific to the C. hookeri lineage. All of these cellulase sequences fall into four main phasmid clades and show gene duplication events occurred early in the diversification of Phasmatodea. In addition, C. hookeri genome is likely to express γ-proteobacteria pectinase transcripts that have recently been shown to be the result of horizontal transfer. We also predicted 711 male terminalia-enriched transcripts that are candidate accessory gland proteins, 28 of which were annotated to have molecular functions of peptidase activity and peptidase inhibitor activity, two groups being widely reported to regulate female reproduction through proteolytic cascades. Our study has yielded new insights into the genetic basis of odour detection, nutrient digestion, and male sexual traits in stick insects. The C. hookeri reference transcriptome, together with identified gene families, provides a comprehensive resource for studying the evolution of sensory perception, digestive systems, and reproductive success in phasmids.
Clitarchus transcriptome assembly from five different tissues
Transcriptome assembly constructed from C. hookeri female antennae, head and prothorax, midgut, leg and male terminalia. More details are shown in ReadMe file.
Clitarchus four genomic scaffolds
Genomic scaffolds were obtained from Chen Wu's unpublished data. Scaffold1029 contains OBP4, OBP5 and OBP6. The other scaffolds contain the nine GH9 cellulase genes.