TY - JOUR A2 - Brunet, Frédéric AU - Francino, M. Pilar PY - 2012 DA - 2012/07/31 TI - The Ecology of Bacterial Genes and the Survival of the New SP - 394026 VL - 2012 AB - Much of the observed variation among closely related bacterial genomes is attributable to gains and losses of genes that are acquired horizontally as well as to gene duplications and larger amplifications. The genomic flexibility that results from these mechanisms certainly contributes to the ability of bacteria to survive and adapt in varying environmental challenges. However, the duplicability and transferability of individual genes imply that natural selection should operate, not only at the organismal level, but also at the level of the gene. Genes can be considered semiautonomous entities that possess specific functional niches and evolutionary dynamics. The evolution of bacterial genes should respond both to selective pressures that favor competition, mostly among orthologs or paralogs that may occupy the same functional niches, and cooperation, with the majority of other genes coexisting in a given genome. The relative importance of either type of selection is likely to vary among different types of genes, based on the functional niches they cover and on the tightness of their association with specific organismal lineages. The frequent availability of new functional niches caused by environmental changes and biotic evolution should enable the constant diversification of gene families and the survival of new lineages of genes. SN - 2090-8032 UR - https://doi.org/10.1155/2012/394026 DO - 10.1155/2012/394026 JF - International Journal of Evolutionary Biology PB - Hindawi Publishing Corporation KW - ER -