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蜥蜴从不迟到:蜥蜴类基因组学是理解性染色体和微染色体进化的最新催化剂。

A lizard is never late: Squamate genomics as a recent catalyst for understanding sex chromosome and microchromosome evolution.

机构信息

School of Life Sciences, Arizona State University, Tempe, AZ, United States.

Center for Evolution and Medicine, Arizona State University, Tempe, AZ, United States.

出版信息

J Hered. 2023 Aug 23;114(5):445-458. doi: 10.1093/jhered/esad023.

DOI:10.1093/jhered/esad023
Abstract

In 2011, the first high-quality genome assembly of a squamate reptile (lizard or snake) was published for the green anole. Dozens of genome assemblies were subsequently published over the next decade, yet these assemblies were largely inadequate for answering fundamental questions regarding genome evolution in squamates due to their lack of contiguity or annotation. As the "genomics age" was beginning to hit its stride in many organismal study systems, progress in squamates was largely stagnant following the publication of the green anole genome. In fact, zero high-quality (chromosome-level) squamate genomes were published between the years 2012 and 2017. However, since 2018, an exponential increase in high-quality genome assemblies has materialized with 24 additional high-quality genomes published for species across the squamate tree of life. As the field of squamate genomics is rapidly evolving, we provide a systematic review from an evolutionary genomics perspective. We collated a near-complete list of publicly available squamate genome assemblies from more than half-a-dozen international and third-party repositories and systematically evaluated them with regard to their overall quality, phylogenetic breadth, and usefulness for continuing to provide accurate and efficient insights into genome evolution across squamate reptiles. This review both highlights and catalogs the currently available genomic resources in squamates and their ability to address broader questions in vertebrates, specifically sex chromosome and microchromosome evolution, while addressing why squamates may have received less historical focus and has caused their progress in genomics to lag behind peer taxa.

摘要

2011 年,发表了首例高质量的蜥蜴目爬行动物(蜥蜴或蛇)基因组组装结果,对象为绿安乐蜥。随后的十年间,又有数十个基因组组装结果发表,但由于缺乏连续性或注释,这些组装结果在很大程度上不足以回答有关蜥蜴目基因组进化的基本问题。随着“基因组时代”在许多生物系统中开始流行,在绿安乐蜥基因组发表之后,蜥蜴目的进展在很大程度上停滞不前。事实上,在 2012 年至 2017 年期间,没有发表任何高质量(染色体水平)的蜥蜴目基因组。然而,自 2018 年以来,随着高质量基因组组装数量的指数级增长,已有 24 个额外的高质量基因组被发表,涵盖了蜥蜴目生命树中的多个物种。随着蜥蜴目基因组学领域的快速发展,我们从进化基因组学的角度提供了一个系统的综述。我们从六个以上的国际和第三方存储库中收集了几乎完整的蜥蜴目基因组组装列表,并从整体质量、系统发育广度以及对继续提供有关蜥蜴目爬行动物基因组进化的准确和高效见解的有用性等方面对其进行了系统评估。该综述不仅突出并编目了蜥蜴目的现有基因组资源及其解决脊椎动物中更广泛问题(性染色体和微染色体进化)的能力,同时还探讨了为什么蜥蜴目受到的关注较少,以及为什么它们在基因组学方面的进展落后于其他分类群。

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