Graduate University for Advanced Studies, Hayama, Kanagawa, 240-0193, Japan.
National Research Institute of Far Seas Fisheries, Fisheries Research Agency, Yokohama, Kanagawa, 236-8648, Japan.
Heredity (Edinb). 2018 May;120(5):474-484. doi: 10.1038/s41437-017-0034-1. Epub 2018 Jan 23.
Coalescent process for prokaryote species is theoretically considered. Prokaryotes undergo homologous recombination with individuals of the same species (intraspecific recombination) and with individuals of other species (interspecific recombination). This work particularly focuses on interspecific recombination because intraspecific recombination has been well incorporated in coalescent framework. We present a simulation framework for generating SNP (single-nucleotide polymorphism) patterns that allows external DNA integration into host genome from other species. Using this simulation tool, msPro, we observed that the joint processes of intra- and interspecific recombination generate complex SNP patterns. The direct effect of interspecific recombination includes increased polymorphism. Because interspecific recombination is very rare in nature, it generates regions with exceptionally high polymorphism. Following interspecific recombination, intraspecific recombination cuts the integrated external DNA into small fragments, generating a complex SNP pattern that appears as if external DNA was integrated multiple times. The insight gained from our work using the msPro simulator will be useful for understanding and evaluating the relative contributions of intra- and interspecific recombination events in generating complex SNP patters in prokaryotes.
本研究从理论上探讨了原核生物的复合过程。原核生物可以与同种个体(种内重组)和其他种个体(种间重组)进行同源重组。本工作特别关注种间重组,因为种内重组已很好地纳入复合框架中。我们提出了一种 SNP(单核苷酸多态性)模式生成的模拟框架,该框架允许外部 DNA 从其他物种整合到宿主基因组中。使用这个模拟工具 msPro,我们观察到种内和种间重组的联合过程会产生复杂的 SNP 模式。种间重组的直接影响包括增加多态性。由于种间重组在自然界中非常罕见,因此它会产生异常高多态性的区域。种间重组之后,种内重组会将整合的外部 DNA 切成小片段,产生一种复杂的 SNP 模式,就好像外部 DNA 被多次整合一样。通过使用 msPro 模拟器进行的工作所获得的见解,将有助于理解和评估种内和种间重组事件在产生原核生物复杂 SNP 模式方面的相对贡献。