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Multiple independent origins of the female W chromosome in moths and butterflies.

Min-Jin HanChaorui LuoHai HuMeixing LinKunpeng LuJianghong ShenJianyu RenYanzhuo YeEric WesthofXiao-Ling TongFang-Yin Dai
Published in: Science advances (2024)
Lepidoptera, the most diverse group of insects, exhibit female heterogamy (Z0 or ZW), which is different from most other insects (male heterogamy, XY). Previous studies suggest a single origin of the Z chromosome. However, the origin of the lepidopteran W chromosome remains poorly understood. Here, we assemble the genome from females down to the chromosome level of a model insect ( Bombyx mori ) and identify a W chromosome of approximately 10.1 megabase using a newly developed tool. In addition, we identify 3593 genes that were not previously annotated in the genomes of B. mori . Comparisons of 21 lepidopteran species (including 17 ZW and four Z0 systems) and three trichopteran species (Z0 system) reveal that the formation of Ditrysia W involves multiple mechanisms, including previously proposed canonical and noncanonical models, as well as a newly proposed mechanism called single-Z turnover. We conclude that there are multiple independent origins of the W chromosome in the Ditrysia (most moths and all butterflies) of Lepidoptera.
Keyphrases
  • copy number
  • genome wide
  • dna methylation
  • gene expression
  • single cell
  • genome wide identification