Wolfgang Koester scite author profile

Bacterial porin-encoding genes are often found under positive selection. Local recombination has also been identified in a handful of them to facilitate bacterial rapid adaptation, though it remains unknown whether it is a common evolutionary mechanism for the porins or outer membrane proteins in gram-negative bacteria. In this research, we investigated the β-barrel porin encoding genes in Escherichia coli that were reported under positive Darwinia selection. Besides fhuA that was found with ingenic local recombination previously, we identified four other genes, i.e., lamB, ompA, ompC and ompF, all showing the similar mosaic evolution patterns. Comparative analysis of the protein sequences disclosed a list of highly variable regions in each family, which are mostly located in the convex of extracellular loops and coinciding with the binding sites of bacteriophages. For each of the porin family, mosaic recombination leads to combinations of the HVRs with different sequence patterns, generating diverse protein groups. Structure modeling further indicated the conserved global topology for various groups of each porin family, but the extracellular surface varies a lot that is formed by individual or combinatorial HVRs. The conservation of global tertiary structure ensures the channel activity while the wide diversity of HVRs may assist bacteria avoiding the invasion of phages, antibiotics or immune surveillance factors. In summary, the study identified multiple bacterial porin genes with mosaic evolution, a likely general strategy, by which porins could facilitate the host bacteria to both maintain normal life processes and evade the attack of unfavorable factors rapidly.

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Wolfgang Koester

Biofilm formation by Escherichia coli is stimulated by synergistic interactions and co-adhesion mechanisms with adherence-proficient bacteria

Mosaic Evolution of Beta-Barrel-Porin-Encoding Genes in Escherichia coli

Mosaic Evolution of Beta Barrel Porin Encoding Genes inEscherichia coli

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