Ryan Bracewell, Anita Tran, Kamalakar Chatla, Doris Bachtrog
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引用次数: 0
摘要
甲虫是物种最丰富的动物群体,具有多种核型。大多数物种具有 XY 性染色体,但 X0 性别决定机制在某些类群中也很常见。我们生成了具有新性染色体的Tribolium confusum的全染色体组,并利用另外11个甲虫基因组重建了鞘翅目甲虫的核型进化。我们确定了在甲虫中共享一组保守基因的祖先连接群,称为史蒂文斯元素。虽然甲虫的祖先 X 染色体保持不变,但我们发现祖先性染色体上有独立的常染色体。这些新性染色体进化出了性染色体的刻板特性,包括剂量补偿的进化和具有性别偏向表达的基因的非随机分布。因此,甲虫为更好地了解驱动性染色体进化的各种力量提供了一个新的模型。
Beetles are the most species-rich group of animals and harbor diverse karyotypes. Most species have XY sex chromosomes, but X0 sex determination mechanisms are also common in some groups. We generated a whole-chromosome assembly of Tribolium confusum, which has a neo-sex chromosome, and utilize eleven additional beetle genomes to reconstruct karyotype evolution across Coleoptera. We identify ancestral linkage groups, termed Stevens elements, that share a conserved set of genes across beetles. While the ancestral X chromosome is maintained across beetles, we find independent additions of autosomes to the ancestral sex chromosomes. These neo-sex chromosomes evolve the stereotypical properties of sex chromosomes, including the evolution of dosage compensation and a non-random distribution of genes with sex-biased expression. Beetles thus provide a novel model to gain a better understanding of the diverse forces driving sex chromosome evolution.
期刊介绍:
PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill).
Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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