Novel crossover and recombination hotspots massively spread across primate genomes.

IF 5.7 2区生物学 Q1 BIOLOGY Biology Direct Pub Date : 2024-08-21 DOI:10.1186/s13062-024-00508-8

Mina Ohadi, Masoud Arabfard, Safoura Khamse, Samira Alizadeh, Sara Vafadar, Hadi Bayat, Nahid Tajeddin, Ali M A Maddi, Ahmad Delbari, Hamid R Khorram Khorshid

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Abstract

Background: The recombination landscape and subsequent natural selection have vast consequences forevolution and speciation. However, most of the crossover and recombination hotspots are yet to be discovered. We previously reported the relevance of C and G trinucleotide two-repeat units (CG-TTUs) in crossovers and recombination.

Methods: On a genome-wide scale, here we mapped all combinations of A and T trinucleotide two-repeat units (AT-TTUs) in human, consisting of AATAAT, ATAATA, ATTATT, TTATTA, TATTAT, and TAATAA. We also compared a number of the colonies formed by the AT-TTUs (distance between consecutive AT-TTUs < 500 bp) in several other primates and mouse.

Results: We found that the majority of the AT-TTUs (> 96%) resided in approximately 1.4 million colonies, spread throughout the human genome. In comparison to the CG-TTU colonies, the AT-TTU colonies were significantly more abundant and larger in size. Pure units and overlapping units of the pure units were readily detectable in the same colonies, signifying that the units were the sites of unequal crossover. We discovered dynamic sharedness of several of the colonies across the primate species studied, which mainly reached maximum complexity and size in human.

Conclusions: We report novel crossover and recombination hotspots of the finest molecular resolution, massively spread and shared across the genomes of human and several other primates. With respect to crossovers and recombination, these genomes are far more dynamic than previously envisioned.

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新的交叉和重组热点大规模遍布灵长类动物基因组。

背景：重组景观和随后的自然选择对生物进化和物种繁衍具有重大影响。然而，大多数交叉和重组热点尚未被发现。我们以前曾报道过 C 和 G 三核苷酸双重复单位（CG-TTUs）在交叉和重组中的相关性：在全基因组范围内，我们绘制了人类中 A 和 T 三核苷酸双重复单位（AT-TTU）的所有组合，包括 AATAAT、ATAATA、ATTATT、TTATTA、TATTAT 和 TAATAA。我们还比较了 AT-TTU 形成的菌落数（连续 AT-TTU 之间的距离）：我们发现，大部分 AT-TTU （> 96%）分布在约 140 万个菌落中，遍布整个人类基因组。与 CG-TTU 群体相比，AT-TTU 群体明显更多，规模也更大。在同一菌落中很容易检测到纯合单元和纯合单元的重叠单元，这表明这些单元是不平等交叉的位点。我们发现，在所研究的灵长类物种中，有几个菌落具有动态共享性，主要是在人类中达到了最大的复杂性和规模：我们报告了具有最精细分子分辨率的新型交叉和重组热点，它们在人类和其他几种灵长类动物的基因组中大规模分布和共享。在交叉和重组方面，这些基因组的动态性远远超过了之前的设想。

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

Biology Direct 生物-生物学

CiteScore

6.40

自引率

10.90%

发文量

审稿时长

7 months

期刊介绍： Biology Direct serves the life science research community as an open access, peer-reviewed online journal, providing authors and readers with an alternative to the traditional model of peer review. Biology Direct considers original research articles, hypotheses, comments, discovery notes and reviews in subject areas currently identified as those most conducive to the open review approach, primarily those with a significant non-experimental component.