Chromosome-level genome of the European hamster (Cricetus cricetus) and its genome-wide population structure across Western Europe.

IF 4.5 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2025-09-15 DOI:10.1186/s12915-025-02384-8

Tobias Erik Reiners, David Prochotta, Tilman Schell, Carola Greve, Alexander Ben Hamadou, Charlotte Gerheim, Juan-Manuel Ortega, Carsten Nowak, Marcel Nebenführ, Axel Janke

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Abstract

Background: The European hamster (Cricetus cricetus) was once a pest on European farmland, but its numbers have declined dramatically in recent decades, making it a critically endangered species throughout Europe and beyond. While it is strictly protected by EU law and several conservations, breeding and release programs have been initiated, and little is known about the level of genetic erosion and inbreeding on a European scale.

Results: Here, we present a chromosome-level de novo genome of a female hamster and a first population genomic analysis from the western range of the species' distribution, using Illumina short reads (10 × coverage) from 34 individuals. The genome is 2.89 Gbp long, with 11 chromosome-level scaffolds and around 600 unplaced scaffolds and scaffolds N50 of 267 Mbp. The genome is above the average length of a mammalian genome and longer than that of other studied hamster species. Four distinct hamster populations with no admixture can be identified, indicating highly isolated populations with limited connectivity. Heterozygosity (Ho) is generally low (< 0.05%, comparable to polar bears) with some exceptions of populations with Ho near zero and a few with Ho as high as 0.2%.

Conclusions: Most dramatically, the genomes of individuals used as founders for conservation breeding programs show exceptionally long runs of homozygosity, questioning its long-term suitability. This study confirms earlier concerns about the dramatically decreasing genetic diversity of the European hamster and provides a basis for future conservation efforts, which require consideration of population genetic factors.

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欧洲仓鼠（Cricetus Cricetus）的染色体水平基因组及其在西欧的全基因组种群结构。

背景：欧洲仓鼠（Cricetus Cricetus）曾经是欧洲农田的害虫，但近几十年来其数量急剧下降，使其成为整个欧洲及其他地区的极度濒危物种。虽然它受到欧盟法律和一些保护区的严格保护，但繁殖和释放计划已经启动，而且对欧洲范围内遗传侵蚀和近亲繁殖的程度知之甚少。结果：本研究利用Illumina短序列（10 ×覆盖）对34只雌性仓鼠进行了染色体水平的从头基因组分析，并首次对该物种西部分布范围进行了种群基因组分析。基因组长2.89 Gbp，有11个染色体水平的支架，约600个未放置的支架和267 Mbp的支架N50。该基因组的长度高于哺乳动物基因组的平均长度，比其他被研究的仓鼠物种的基因组要长。发现4个不同的仓鼠种群，没有混杂，表明种群高度孤立，连通性有限。杂合度（Ho）普遍较低(结论：最引人注目的是，作为保护性育种项目创始人的个体的基因组显示出异常长的纯合度，质疑其长期适用性。这项研究证实了早期关于欧洲仓鼠遗传多样性急剧减少的担忧，并为未来需要考虑种群遗传因素的保护工作提供了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Biology 生物-生物学

CiteScore

7.80

自引率

1.90%

发文量

260

审稿时长

3 months

期刊介绍： BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.