Dyads of GGC and GCC form hotspot colonies that coincide with the evolution of human and other great apes.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-02-21 DOI:10.1186/s12863-024-01207-z
M Arabfard, N Tajeddin, S Alizadeh, M Salesi, H Bayat, H R Khorram Khorshid, S Khamse, A Delbari, M Ohadi
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Abstract

Background: GGC and GCC short tandem repeats (STRs) are of various evolutionary, biological, and pathological implications. However, the fundamental two-repeats (dyads) of these STRs are widely unexplored.

Results: On a genome-wide scale, we mapped (GGC)2 and (GCC)2 dyads in human, and found monumental colonies (distance between each dyad < 500 bp) of extraordinary density, and in some instances periodicity. The largest (GCC)2 and (GGC)2 colonies were intergenic, homogeneous, and human-specific, consisting of 219 (GCC)2 on chromosome 2 (probability < 1.545E-219) and 70 (GGC)2 on chromosome 9 (probability = 1.809E-148). We also found that several colonies were shared in other great apes, and directionally increased in density and complexity in human, such as a colony of 99 (GCC)2 on chromosome 20, that specifically expanded in great apes, and reached maximum complexity in human (probability 1.545E-220). Numerous other colonies of evolutionary relevance in human were detected in other largely overlooked regions of the genome, such as chromosome Y and pseudogenes. Several of the genes containing or nearest to those colonies were divergently expressed in human.

Conclusion: In conclusion, (GCC)2 and (GGC)2 form unprecedented genomic colonies that coincide with the evolution of human and other great apes. The extent of the genomic rearrangements leading to those colonies support overlooked recombination hotspots, shared across great apes. The identified colonies deserve to be studied in mechanistic, evolutionary, and functional platforms.

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GGC 和 GCC 的二元组形成热点聚落,与人类和其他类人猿的进化相吻合。
背景:GGC和GCC短串联重复序列(STR)在进化、生物学和病理学方面具有各种意义。然而,这些 STR 的基本双重复序列(dyads)尚未得到广泛研究:结果:在全基因组范围内,我们绘制了人类的(GGC)2和(GCC)2双重复序列,并发现了巨大的群落(每个双重复序列之间的距离):总之,(GCC)2 和 (GGC)2 形成了前所未有的基因组群落,与人类和其他类人猿的进化过程相吻合。导致这些聚落的基因组重排的程度支持了被忽视的重组热点,这些热点在类人猿中是共享的。这些已确定的基因群值得在机理、进化和功能平台上进行研究。
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