加拿大猞猁(Lynx canadensis)的稳定选择和线粒体异形。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-03 DOI:10.1139/gen-2023-0094
Krystyn J Forbes, McIntyre A Barrera, Karsten Nielsen-Roine, Evan W Hersh, Jasmine K Janes, William L Harrower, Jamieson C Gorrell
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引用次数: 0

摘要

线粒体 DNA 常用于群体遗传研究,以调查空间结构、种内变异和系统发育关系。控制区是进化最迅速、面积最大的非编码区,但在包括猫科动物在内的许多哺乳动物中,基因组复制的异质信号会使控制区的分析变得复杂。在这里,我们通过个体内序列变异描述了加拿大猞猁(Lynx canadensis)控制区异质的存在。我们的研究结果表明,每只猞猁体内都存在多个长度不等的单倍型,这是由重复序列 RS-2 的不同拷贝数造成的,并提示重复序列 RS-2 和 RS-3 中可能存在异质单核苷酸多态性(SNP)。只在重复序列中观察到了个体内变异,而在重复序列之外的侧翼区域则检测到了个体间变异,这表明异质突变仅限于这些重复区域。虽然每只猞猁都表现出多种不同长度的单倍型,但我们发现最常见的变异包含 RS-2 重复单元的三个完整拷贝,这表明拷贝数受稳定选择的调控。虽然基因组复制提供了增加多样性的潜力,但在面对线粒体功能和疾病时,异体可能会导致选择性优势或劣势,这可能会对由于栖息地改变或气候变化而经历衰退(如瓶颈)的野生动物种群产生重大影响。
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Stabilizing selection and mitochondrial heteroplasmy in the Canada lynx (Lynx canadensis).

Mitochondrial DNA is commonly used in population genetic studies to investigate spatial structure, intraspecific variation, and phylogenetic relationships. The control region is the most rapidly evolving and largest non-coding region, but its analysis can be complicated by heteroplasmic signals of genome duplication in many mammals, including felids. Here, we describe the presence of heteroplasmy in the control region of Canada lynx (Lynx canadensis) through intra-individual sequence variation. Our results demonstrate multiple haplotypes of varying length in each lynx, resulting from different copy numbers of the repetitive sequence RS-2 and suggest possible heteroplasmic single nucleotide polymorphisms in both repetitive sequences RS-2 and RS-3. Intra-individual variation was only observed in the repetitive sequences while inter-individual variation was detected in the flanking regions outside of the repetitive sequences, indicating that heteroplasmic mutations are restricted to these repeat regions. Although each lynx displayed multiple haplotypes of varying length, we found the most common variant contained three complete copies of the RS-2 repeat unit, suggesting copy number is regulated by stabilizing selection. While genome duplication offers potential for increased diversity, heteroplasmy may lead to a selective advantage or detriment in the face of mitochondrial function and disease, which could have significant implications for wildlife populations experiencing decline (e.g., bottlenecks) as a result of habitat modification or climate change.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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