窥探缝隙:长读测序揭示了澳大利亚鲷鱼的结构变异和基因组进化。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Julie Blommaert , Jonathan Sandoval-Castillo , Luciano B. Beheregaray , Maren Wellenreuther
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引用次数: 0

摘要

甚至在基因组测序之前,遗传资源就已经为物种管理和育种计划提供了支持。目前的技术,如长线程测序,可以解析复杂的基因组区域,如富含重复序列或高 GC 含量的区域。基因组连续性的改善提高了鉴定结构变异(SV)和转座元件(TE)的准确性。我们展示了经过改进的澳大利亚鲷鱼(Chrysophrys auratus)基因组组装和 SV 目录。新的基因组序列更加连续,可以确定 14 个中心粒,并从黄鳍鲷中转移了 26,115 个基因注释。与之前的基因组相比,新的基因组注释增加了 35,000 个 SV,包括更大和更复杂的重排。SV 和 TE 的分布模式偏向染色体末端,这可能是受重组的影响。一些 SV 与生长相关基因重叠,突出了它们的重要性。这一升级基因组为研究自然选择和人工选择奠定了基础,为相关物种提供了参考,并揭示了进化过程中基因组的动态变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peering into the gaps: Long-read sequencing illuminates structural variants and genomic evolution in the Australasian snapper

Even before genome sequencing, genetic resources have supported species management and breeding programs. Current technologies, such as long-read sequencing, resolve complex genomic regions, like those rich in repeats or high in GC content. Improved genome contiguity enhances accuracy in identifying structural variants (SVs) and transposable elements (TEs). We present an improved genome assembly and SV catalogue for the Australasian snapper (Chrysophrys auratus). The new assembly is more contiguous, allowing for putative identification of 14 centromeres and transfer of 26,115 gene annotations from yellowfin seabream. Compared to the previous assembly, 35,000 additional SVs, including larger and more complex rearrangements, were annotated. SVs and TEs exhibit a distribution pattern skewed towards chromosome ends, likely influenced by recombination. Some SVs overlap with growth-related genes, underscoring their significance. This upgraded genome serves as a foundation for studying natural and artificial selection, offers a reference for related species, and sheds light on genome dynamics shaped by evolution.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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