Biology Direct (Aug 2024)

Novel crossover and recombination hotspots massively spread across primate genomes

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

DOI
https://doi.org/10.1186/s13062-024-00508-8
Journal volume & issue
Vol. 19, no. 1
pp. 1 – 16

Abstract

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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 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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