Your search keyword '"William Cenens"' showing total 2 results

1. Bacteria-Killing Type IV Secretion Systems

Author

Germán G. Sgro, Gabriel U. Oka, Diorge P. Souza, William Cenens, Ethel Bayer-Santos, Bruno Y. Matsuyama, Natalia F. Bueno, Thiago Rodrigo dos Santos, Cristina E. Alvarez-Martinez, Roberto K. Salinas, and Chuck S. Farah

Subjects

bacterial competition, Xanthomonadales, type IV immunity protein, type IV secretion effector, type IV secretion system, X-Tfe, Microbiology, QR1-502

Abstract

Bacteria have been constantly competing for nutrients and space for billions of years. During this time, they have evolved many different molecular mechanisms by which to secrete proteinaceous effectors in order to manipulate and often kill rival bacterial and eukaryotic cells. These processes often employ large multimeric transmembrane nanomachines that have been classified as types I–IX secretion systems. One of the most evolutionarily versatile are the Type IV secretion systems (T4SSs), which have been shown to be able to secrete macromolecules directly into both eukaryotic and prokaryotic cells. Until recently, examples of T4SS-mediated macromolecule transfer from one bacterium to another was restricted to protein-DNA complexes during bacterial conjugation. This view changed when it was shown by our group that many Xanthomonas species carry a T4SS that is specialized to transfer toxic bacterial effectors into rival bacterial cells, resulting in cell death. This review will focus on this special subtype of T4SS by describing its distinguishing features, similar systems in other proteobacterial genomes, and the nature of the effectors secreted by these systems and their cognate inhibitors.

Published

2019

2. Bacteria-Killing Type IV Secretion Systems

Author

Natalia F. Bueno, Roberto Kopke Salinas, Chuck S. Farah, Diorge P. Souza, Thiago Rodrigo dos Santos, Bruno Y. Matsuyama, William Cenens, Cristina E. Alvarez-Martinez, Ethel Bayer-Santos, Germán G. Sgro, and Gabriel Umaji Oka

Subjects

Microbiology (medical), type IV immunity protein, lcsh:QR1-502, BACTÉRIAS, Review, Biology, Genome, Microbiology, lcsh:Microbiology, 03 medical and health sciences, Xanthomonas, Xanthomonadales, Secretion, type IV secretion system, 030304 developmental biology, 0303 health sciences, X-Tfi, 030306 microbiology, Effector, Bacterial conjugation, biology.organism_classification, Transmembrane protein, type IV secretion effector, X-Tfe, Cell biology, Xanthomonas species, bacterial competition, X-T4SS, Bacteria

Abstract

Bacteria have been constantly competing for nutrients and space for billions of years. During this time, they have evolved many different molecular mechanisms by which to secrete proteinaceous effectors in order to manipulate and often kill rival bacterial and eukaryotic cells. These processes often employ large multimeric transmembrane nanomachines that have been classified as types I-IX secretion systems. One of the most evolutionarily versatile are the Type IV secretion systems (T4SSs), which have been shown to be able to secrete macromolecules directly into both eukaryotic and prokaryotic cells. Until recently, examples of T4SS-mediated macromolecule transfer from one bacterium to another was restricted to protein-DNA complexes during bacterial conjugation. This view changed when it was shown by our group that many Xanthomonas species carry a T4SS that is specialized to transfer toxic bacterial effectors into rival bacterial cells, resulting in cell death. This review will focus on this special subtype of T4SS by describing its distinguishing features, similar systems in other proteobacterial genomes, and the nature of the effectors secreted by these systems and their cognate inhibitors.

Published

2019