Reassessing the causal connection between satDNA dynamics and chromosomal evolution in Ctenomys (Rodentia, Ctenomyidae): Unveiling the overlooked importance of the Y chromosome

IF 2.1 2区 生物学 Q1 ZOOLOGY Contributions to Zoology Pub Date : 2023-08-14 DOI:10.1163/18759866-bja10052
Diego A. Caraballo
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Abstract

Satellite dna s (satDNA) have long been recognized as a major driving force in karyotypic repatterning, owing to their ability to recombine between non-homologous chromosomes. A quite extensively studied model is the Repetitive PvuII Ctenomys Sequence (rpcs), the main component of constitutive heterochromatin in rodents of the genus Ctenomys (Rodentia, Ctenomyidae). At the genus level, fluctuations in rpcs copy number have been previously associated with karyotypic instability. However, when a microevolutionary approach was assayed in the most karyotypically variable lineage of the genus, the vast population-level copy number variation precluded any possibility of analyzing it in a phylogenetic framework. The existence of sex-related differences as a source of variability was not considered until later, when chromosomal banding suggested that the Y chromosome may be a significant reservoir of rpcs. This study aimed to investigate the bias associated with the presence of the Y chromosome in rpcs copy number variation in the Corrientes group of Ctenomys. The results revealed that the Y chromosome harbors almost twice the amount of rpcs compared to the rest of the chromosome complement, explaining the high levels of intrapopulation variation. The evolution of rpcs copy number in males and females showed independent patterns, attributable to the presence/absence of the Y chromosome. The correlation between rpcs dynamics and diploid number fluctuations was also investigated, concluding that some karyotypic repatterning events could be explained by satDNA amplification/deletion, but not all of them. This study highlights the importance of considering differences resulting from the differential accumulation of satDNA in the heterogametic chromosome.
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重新评估毛线蛛(啮齿目,毛线蛛科)中satDNA动态与染色体进化之间的因果关系:揭示Y染色体被忽视的重要性
卫星dna (satDNA)由于其在非同源染色体之间重组的能力,长期以来被认为是核型重组的主要驱动力。一个被广泛研究的模型是重复性pvii栉水母序列(rpcs),它是栉水母属啮齿动物(啮齿类,栉水母科)组成异染色质的主要成分。在属水平上,rpcs拷贝数的波动以前与核型不稳定性有关。然而,当用微进化方法对该属最具核型变异的谱系进行分析时,巨大的种群水平拷贝数变异排除了在系统发育框架中分析它的任何可能性。直到后来,当染色体带带表明Y染色体可能是rpcs的重要储存库时,性别相关差异的存在才被认为是变异性的来源。本研究旨在探讨与Y染色体存在相关的偏倚在Ctenomys Corrientes组的rpcs拷贝数变异。结果显示,与染色体补体的其他部分相比,Y染色体携带的rpc数量几乎是其两倍,这解释了高水平的种群内变异。由于存在或不存在Y染色体,雄性和雌性rpcs拷贝数的进化呈现出独立的模式。研究了染色体动力学与二倍体数目波动的相关性,认为部分核型重模式事件可以用satDNA扩增/缺失来解释,但不是全部。这项研究强调了考虑由异配子染色体中satDNA的差异积累引起的差异的重要性。
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来源期刊
Contributions to Zoology
Contributions to Zoology 生物-动物学
CiteScore
4.00
自引率
4.50%
发文量
16
审稿时长
>12 weeks
期刊介绍: Contributions to Zoology solicits high-quality papers in all systematics-related branches of comparative zoology (including paleozoology). Preference will be given to manuscripts dealing with conceptual issues and to integrative papers (e.g., ecology and biodiversity, morphology and phylogeny and character state evolution, phylogeny and historical biogeography, systematics and bioinformatics, bioinformatics and biodiversity, habitat disturbance and biogeography, etc.). Reviews and alpha-taxonomic contributions are considered for publication, but acceptance will depend on their high quality and exceptional nature.
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