期刊
GENE
卷 335, 期 -, 页码 73-88出版社
ELSEVIER
DOI: 10.1016/j.gene.2004.03.017
关键词
DNA-dependent RNA polymerases; bacterial evolution; domain architecture; synapomorphy; phylogenetic analysis
Comparative analysis of the domain architectures of the, beta, beta', and sigma(70) subunits of bacterial DNA-dependent RNA polymerases (DdRp), combined with sequence-based phylogenetic analysis, revealed a fundamental split among bacteria. DNA-dependent RNA polymerase subunits of Group I, which includes Proteobacteria, Aquifex, Chlamydia, Spirochaetes, Cytophaga-Chlorobium, and Planctomycetes, are characterized by three distinct inserts, namely a Sandwich Barrel Hybrid Motif domain in the beta subunit, a beta - beta' module (BBM) I domain in the beta' subunit, and a distinct helical module in the sigma subunit. The DdRp subunits of remaining bacteria, which comprise Group 11, lack these inserts, although some additional inserted domains are present in individual lineages. The separation of bacteria into Group I and Group 11 is generally compatible with the topologies of phylogenetic trees of the conserved regions of DdRp subunits and concatenated ribosomal proteins and might represent the primary bifurcation in bacterial evolution. A striking deviation from this evolutionary pattern is Aquifex whose DdRp subunits cluster within Group 1, whereas phylogenetic analysis of ribosomal proteins identifies Aquifex as grouping with Thermotoga another bacterial hyperthemophile belonging to Group II. The inferred evolutionary scenario for the DdRp subunits includes domain accretion and rearrangement, with some likely horizontal transfer events. Although evolution of bacterial DdRp appeared to be generally dominated by vertical inheritance, horizontal transfer of complete genes for all or some of the,subunits, resulting in displacement of the ancestral genes, might have played a role in several lineages, such as Aquifex, Thermotoga, and Fusobacterium. (C) 2004 Elsevier B.V. All rights reserved.
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