Shun Yao, Yun-liang Wang, Rui-song Tao, Cheng-yong Su, Jia-sheng Hao
Published: April 12, 2018
Genet. Mol. Res. 17(2): gmr16039902
DOI: https://doi.org/10.4238/gmr16039902
Cite this Article:
S. Yao, Yliang Wang, Rsong Tao, Cyong Su, Jsheng Hao (2018). Preliminary analysis on the developmental transcriptomes of swallowtail butterfly Papilio polytes (Lepidoptera: Papilioidae). Genet. Mol. Res. 17(2): gmr16039902. https://doi.org/10.4238/gmr16039902
About the Authors
Shun Yao, Yun-liang Wang, Rui-song Tao, Cheng-yong Su, Jia-sheng Hao
Corresponding Author
Jia Sheng Hao
Email: jshaonigpas@sina.com
ABSTRACT
The butterflies are one of the insect groups which undergo typical complete metamorphosis in their life history. However, up to now, little is known about the genomic mechanism that regulates the butterfly metamorphosis. In this study, using a swallowtail butterfly P. polytes as a model organism, a high-throughput sequencing platform was employed to perform the transcriptome and gene expression analyses in order to explore the P. polytes transcriptome features during different developmental stages. The results showed that approximately 398 million useful (Q20) reads were assembled into groups of 14698 (L1), 14264 (L2), 15084 (L3), 15520 (P1), 15052 (P2), 15720 (P3) and 15709 (A1), 14668 (A2), 16152 (A3) genes, respectively, with 58.19% to 67.11% of the data successfully mapped to the reference genome; the transcriptome change analysis via the DEGs Package revealed that dramatic gene expression differences were presented among the different developmental stages, that is, totally, 1162, 891 and 1723 genes were differentially expressed between adult and pupal, adult and larval, larval and pupal stages, respectively, with a number of these differentially expressed genes associated with the functions of digestion, cuticularization, chemoreception, wing formation, and so on. These differentially expressed genes and potential candidate genes required for butterfly metamorphosis by comparative transcriptomics may shed some new insights on molecular mechanisms underlying complete metamorphosis.
Key words:Papilio polytes, Transcriptome, Differentially expressed genes (DEGs), Complete metamorphosis.