T
Terry J. Beveridge
Researcher at University of Guelph
Publications - 206
Citations - 22783
Terry J. Beveridge is an academic researcher from University of Guelph. The author has contributed to research in topics: Bacterial outer membrane & Periplasmic space. The author has an hindex of 77, co-authored 206 publications receiving 21325 citations. Previous affiliations of Terry J. Beveridge include University of Glasgow & McMaster University.
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Electrically conductive bacterial nanowires produced by Shewanella oneidensis strain MR-1 and other microorganisms
Yuri A. Gorby,Svetlana Yanina,Jeffrey S. McLean,Kevin M. Rosso,Dianne M. Moyles,Alice Dohnalkova,Terry J. Beveridge,In Seop Chang,Byung Hong Kim,Kyung Shik Kim,David E. Culley,Samantha B. Reed,Margaret F. Romine,Daad A. Saffarini,Eric A. Hill,Liang Shi,Dwayne A. Elias,Dwayne A. Elias,David W. Kennedy,Grigoriy E. Pinchuk,Kazuya Watanabe,Shun'ichi Ishii,Bruce E. Logan,Kenneth H. Nealson,James K. Fredrickson +24 more
TL;DR: Nanowires produced by the oxygenic phototrophic cyanobacterium Synechocystis PCC6803 and the thermophilic, fermentative bacterium Pelotomaculum thermopropionicum reveal that electrically conductive appendages are not exclusive to dissimilatory metal-reducing bacteria and may, in fact, represent a common bacterial strategy for efficient electron transfer and energy distribution.
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Structures of Gram-Negative Cell Walls and Their Derived Membrane Vesicles
TL;DR: Gram-negative cell walls are strong enough to withstand ;3 atm of turgor pressure, tough enough to endure extreme temperatures and pHs, and elastic enough to be capable of expanding several times their normal surface area.
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Virulence factors are released from Pseudomonas aeruginosa in association with membrane vesicles during normal growth and exposure to gentamicin: a novel mechanism of enzyme secretion.
TL;DR: Both types of vesicles contained DNA, with a significantly higher content in g-MVs, and could play an important role in genetic transformation and disease by serving as a transport vehicle for DNA and virulence factors and are presumably involved in septic shock.
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Membrane Vesicles: an Overlooked Component of the Matrices of Biofilms
TL;DR: It is shown that membrane vesicles (MVs), structures derived from the outer membrane of gram-negative bacteria, are a common particulate feature of the matrix of Pseudomonas aeruginosa biofilms and were established as common biofilm constituents.
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Role of cellular design in bacterial metal accumulation and mineralization
TL;DR: L'accumulation des metaux par les bacteries: article de synthese pour la presence d'ions metalliques pour les surfaces bacteriennes.