State Key Laboratory of Genetic Resources and Evolution, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, Yunnan, China.
School of Ecology and Environment, Northwestern Polytechnical University, Xi'an, Shaanxi, China.
Arch Insect Biochem Physiol. 2022 Oct;111(2):e21952. doi: 10.1002/arch.21952. Epub 2022 Jul 31.
Papilio machaon was assigned as the type species for all butterflies by Linnaeus and P. bianor is a congener but exhibits a great difference in morphology (especially larva and adult color pattern) and larval host plants from P. machaon. Thus, they are the ideal models to investigate genetic mechanisms underlying morphology and plasticity between congeners. The reference genomes of both species were dissected in our previous studies, but little is known about their regulatory genome and the epigenetic regulation of gene expression throughout developmental stages. Here, we profiled the chromatin accessibility and gene expression of three developmental stages (the 4th instar larva [L4], the 5th instar larva [L5], and pupa [P]) using transposase accessible chromatin sequencing (ATAC-seq) and RNA-seq. Results showed that many accessible chromatin peaks were identified at three developmental stages (peak number, P. machaon: 44,977 [L4], 36,919 [L5], 47,147 [P]; P. bianor: 20,341 [L4], 44,668 [L5], 62,249 [P]). Moreover, the number of differentially accessible peaks and differentially expressed genes between larval stages of each butterfly species are significantly fewer than that between larval and pupal stages, suggesting a higher similarity within larvae and a significant difference between larvae and pupae. This study added the annotated information of chromatin accessibility genome-wide of the two papilionid species and will promote the investigation of gene regulation in butterfly evolution.
凤蝶属的指名亚种被林奈指定为所有蝴蝶的模式种,而碧凤蝶是一个近缘种,但在形态(尤其是幼虫和成虫的颜色模式)和幼虫的寄主植物上与凤蝶属有很大的不同。因此,它们是研究近缘种之间形态和可塑性遗传机制的理想模型。在我们之前的研究中,对这两个物种的参考基因组进行了剖析,但对它们的调控基因组以及整个发育阶段基因表达的表观遗传调控知之甚少。在这里,我们使用转座酶可及染色质测序(ATAC-seq)和 RNA-seq 对三个发育阶段(第 4 龄幼虫 [L4]、第 5 龄幼虫 [L5]和蛹 [P])的染色质可及性和基因表达进行了分析。结果表明,在三个发育阶段鉴定出许多可及的染色质峰(峰数,凤蝶属:44977 [L4],36919 [L5],47147 [P];碧凤蝶属:20341 [L4],44668 [L5],62249 [P])。此外,每个蝴蝶物种幼虫阶段之间差异可及峰和差异表达基因的数量明显少于幼虫和蛹阶段之间的差异,这表明幼虫内部具有更高的相似性,而幼虫和蛹之间存在显著差异。本研究为这两个凤蝶物种增加了全基因组染色质可及性的注释信息,将促进对蝴蝶进化中基因调控的研究。
