Complete genome sequence of Acidaminococcus intestini RYC-MR95, a Gram-negative bacterium from the phylum Firmicutes.

Acidaminococcus intestini belongs to the family Acidaminococcaceae, order Selenomonadales, class Negativicutes, phylum Firmicutes. Negativicutes show the double-membrane system of Gram-negative bacteria, although their chromosomal backbone is closely related to that of Gram-positive bacteria of the phylum Firmicutes. The complete genome of a clinical A. intestini strain is here presented.

Mutation rate is reduced by increased dosage of mutL gene in Escherichia coli K-12.

A variable but substantial proportion of wild Escherichia coli isolates present consistently lower mutation frequencies than that found in the ensemble of strains. The genetic mechanisms responsible for the hypo-mutation phenotype are much less known than those involved in hyper-mutation. Changes in E. coli mutation frequencies derived from the gene-copy effect of mutS, mutL, mutH, uvrD, mutT, mutY, mutM, mutA, dnaE, dnaQ, and rpoS are explored. When present in a very high copy number ( approximately 300 copies cell(-1)), mutL, mutH, and mutA gene copies yielded >/=twofold decrease in mutation rates determined by Luria-Delbrück fluctuation tests. Nevertheless, when the copy number was not such high ( approximately 15 copies cell(-1)), only mutL results in a consistent twofold decrease in the mutation rate. This reduction seems to be independent from the RecA background, phase of growth, or from the presence of proficient MutS. An increase in mutL gene copies was also able to partially compensate the hypermutator phenotype of a mutS-defective E. coli derivative.