The symmetrical pattern of base-pair substitutions rates across the chromosome in Escherichia coli has multiple causes

Abstract

AbstractMutation accumulation experiments followed by whole-genome sequencing have revealed that for several bacterial species the rate of base-pair substitutions is not constant across the chromosome but varies in a wave-like pattern symmetrical about the origin of replication. The experiments reported here demonstrate that in Escherichia coli several interacting factors determine the wave. Perturbing replication timing, progression, or the structure of the terminus disrupts the pattern. Biases in error-correction by proofreading and mismatch repair are major factors. The activities of the nucleoid binding proteins, HU and Fis, are important, suggesting that mutation rates increase when highly structured DNA is replicated. These factors should apply to most bacterial, and possibly eukaryotic, genomes, and imply that different areas of the genome evolve at different rates.