RRC ID 89192
著者 Bhaya D, Birzu G, Rocha EPC.
タイトル Horizontal Gene Transfer and Recombination in Cyanobacteriota.
ジャーナル Annu Rev Microbiol
Abstract Cyanobacteria played a pivotal role in shaping Earth's early history and today are key players in many ecosystems. As versatile and ubiquitous phototrophs, they are used as models for oxygenic photosynthesis, nitrogen fixation, circadian rhythms, symbiosis, and adaptations to harsh environments. Cyanobacterial genomes and metagenomes exhibit high levels of genomic diversity partly driven by gene flow within and across species. Processes such as recombination and horizontal transfer of novel genes are facilitated by the mobilome that includes plasmids, transposable elements, and bacteriophages. We review these processes in the context of molecular mechanisms of gene transfer, barriers to gene flow, selection for novel traits, and auxiliary metabolic genes. Additionally, Cyanobacteriota are unique because ancient evolutionary innovations, such as oxygenic photosynthesis, can be corroborated with fossil and biogeochemical records. At the same time, sequencing of extant natural populations allows the tracking of recombination events and gene flow over much shorter timescales. Here, we review the challenges of assessing the impact of gene flow across the whole range of evolutionary timescales. Understanding the tempo and constraints to gene flow in Cyanobacteriota can help decipher the timing of key functional innovations, analyze adaptation to local environments, and design Cyanobacteriota for robust use in biotechnology.
巻・号 79(1)
ページ 685-711
公開日 2025-10-1
DOI 10.1146/annurev-micro-041522-100420
PMID 40929513
MeSH Bacteriophages / genetics Cyanobacteria* / genetics Evolution, Molecular Gene Flow Gene Transfer, Horizontal* Recombination, Genetic*
リソース情報
藻類 NIES-102 NIES-843