Imaginal disc growth factor maintains cuticle structure and controls melanization in the spot pattern formation of Bombyx mori.

Yun Gao, Yun-Cai Liu, Shun-Ze Jia, Yan-Ting Liang, Yu Tang, Yu-Song Xu, Hideki Kawasaki, Hua-Bing Wang

PLoS genetics 2020 Sep

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The complex stripes and patterns of insects play key roles in behavior and ecology. However, the fine-scale regulation mechanisms underlying pigment formation and morphological divergence remain largely unelucidated. Here we demonstrated that imaginal disc growth factor (IDGF) maintains cuticle structure and controls melanization in spot pattern formation of Bombyx mori. Moreover, our knockout experiments showed that IDGF is suggested to impact the expression levels of the ecdysone inducible transcription factor E75A and pleiotropic factors apt-like and Toll8/spz3, to further control the melanin metabolism. Furthermore, the untargeted metabolomics analyses revealed that BmIDGF significantly affected critical metabolites involved in phenylalanine, beta-alanine, purine, and tyrosine metabolism pathways. Our findings highlighted not only the universal function of IDGF to the maintenance of normal cuticle structure but also an underexplored space in the gene function affecting melanin formation. Therefore, this study furthers our understanding of insect pigment metabolism and melanin pattern polymorphisms.

Citation

Yun Gao, Yun-Cai Liu, Shun-Ze Jia, Yan-Ting Liang, Yu Tang, Yu-Song Xu, Hideki Kawasaki, Hua-Bing Wang. Imaginal disc growth factor maintains cuticle structure and controls melanization in the spot pattern formation of Bombyx mori. PLoS genetics. 2020 Sep;16(9):e1008980