Chromosome Painting in Silico in a Bacterial Species Reveals Fine Population Structure

Overview

Journal Mol Biol Evol

Publisher Oxford University Press

Specialty Biology

Date 2013 Mar 19

PMID 23505045

Citations 55

Authors

Koji Yahara

Yoshikazu Furuta

Kenshiro Oshima

Masaru Yoshida

Takeshi Azuma

Masahira Hattori

Ikuo Uchiyama

Ichizo Kobayashi

Affiliations

Soon will be listed here.

Abstract

Identifying population structure forms an important basis for genetic and evolutionary studies. Most current methods to identify population structure have limitations in analyzing haplotypes and recombination across the genome. Recently, a method of chromosome painting in silico has been developed to overcome these shortcomings and has been applied to multiple human genome sequences. This method detects the genome-wide transfer of DNA sequence chunks through homologous recombination. Here, we apply it to the frequently recombining bacterial species Helicobacter pylori that has infected Homo sapiens since their birth in Africa and shows wide phylogeographic divergence. Multiple complete genome sequences were analyzed including sequences from Okinawa, Japan, that we recently sequenced. The newer method revealed a finer population structure than revealed by a previous method that examines only MLST housekeeping genes or a phylogenetic network analysis of the core genome. Novel subgroups were found in Europe, Amerind, and East Asia groups. Examination of genetic flux showed some singleton strains to be hybrids of subgroups and revealed evident signs of population admixture in Africa, Europe, and parts of Asia. We expect this approach to further our understanding of intraspecific bacterial evolution by revealing population structure at a finer scale.

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