The microbial pan-genome

TL;DR: Dairy associated anaerobic sporeformers are assessed from a number of perspectives, including the taxonomy of this group of bacteria, the important subgroup of this genus the "sulphite reducing clostridia" (SRC), how these bacteria are detected in milk products, the epidemiological data regarding pathogenic species and strains within the SRC group as well as the influence of farming practices on the presence of SRC in BTM.

TL;DR: It is now possible to reconstruct the sources and the history of pandemic waves of plague by a combined analysis of phylogeographic signals in Y. pestis plus polymorphisms found in ancient DNA.

TL;DR: The genomes of L. iners and L. crispatus are characterized and compared to gain insight into possible mechanisms driving the maintenance of this species diversity and demonstrate how closely related microbial species partition shared fundamental niche space in the vagina.

TL;DR: A metagenomic analysis of the genomes of large and giant viruses from deep sea sediments substantially expand the known diversity of the nucleocytoplasmic large DNA viruses of eukaryotes and reaffirms the monophyly of the pithov virus-iridovirus-marseillevirus branch of the NCLDV.

TL;DR: Over 1.2 million previously unknown genes represented in these samples, including more than 782 new rhodopsin-like photoreceptors are identified, suggesting substantial oceanic microbial diversity.

TL;DR: The genomic sequence of six strains representing the five major disease-causing serotypes of Streptococcus agalactiae, the main cause of neonatal infection in humans, was generated and Mathematical extrapolation of the data suggests that the gene reservoir available for inclusion in the S. agalactic pan-genome is vast and that unique genes will continue to be identified even after sequencing hundreds of genomes.

TL;DR: Mobile elements within genomes have driven genome evolution in diverse ways and are becoming useful tools for learning more about genome evolution and gene function.

TL;DR: The current review presents the available genomics and biological data on prophages from bacterial pathogens in an evolutionary framework to demonstrate that the chromosomes from bacteria and their viruses (bacteriophages) are coevolving.