Key Metabolites and Mechanistic Changes for Salt Tolerance in an Experimentally Evolved Sulfate-Reducing Bacterium,
mBio, 2017 Rapid genetic and phenotypic adaptation of the sulfate-reducing bacterium Desulfovibrio vulgaris Hildenborough to salt stress was observed during experimental evolution.
Aifen Zhou +19 more
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IHF is required for the transcriptional regulation of the Desulfovibrio vulgaris Hildenborough orp operons. [PDF]
PLoS ONE, 2014 Transcriptional activation of σ(54)-dependent promoters is usually tightly regulated in response to environmental cues. The high abundance of potential σ(54)-dependent promoters in the anaerobe bacteria, Desulfovibrio vulgaris Hildenborough, reflects the
Anouchka Fiévet +4 more
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Single-cell analysis of growth and cell division of the anaerobe Desulfovibrio vulgaris Hildenborough [PDF]
Frontiers in Microbiology, 2015 Recent years have seen significant progress in understanding basic bacterial cell cycle properties such as cell growth and cell division. While characterization and regulation of bacterial cell cycle is quite well documented in the case of fast growing ...
Anouchka eFievet +8 more
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Absence of biofilm adhesin proteins changes surface attachment and cell strategy for Desulfovibrio vulgaris Hildenborough. [PDF]
J BacteriolPickens CP, Wang D, Pan C, De León KB.
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Structural analyses uncover protease-adhesin interactions and c-di-GMP receptor regulation in sulfate-reducing bacteria [PDF]
Nature CommunicationsDesulfovibrio vulgaris is a sulfate-reducing organism with biofim-forming capacity relevant for bioremediation and microbe-induced corrosion. Biofilm formation of D. vulgaris depends on two large adhesins that are regulated by proteins encoded in the Dvh
Maria E. Font +6 more
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Deletion Mutants, Archived Transposon Library, and Tagged Protein Constructs of the Model Sulfate-Reducing Bacterium Desulfovibrio vulgaris Hildenborough. [PDF]
Microbiol Resour Announc, 2021 Wall JD +13 more
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σ54-dependent regulome in Desulfovibrio vulgaris Hildenborough. [PDF]
BMC Genomics, 2015 The σ(54) subunit controls a unique class of promoters in bacteria. Such promoters, without exception, require enhancer binding proteins (EBPs) for transcription initiation. Desulfovibrio vulgaris Hildenborough, a model bacterium for sulfate reduction studies, has a high number of EBPs, more than most sequenced bacteria.
Kazakov AE +6 more
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Dissimilatory reduction of bisulfite by Desulfovibrio vulgaris [PDF]
Journal of Bacteriology, 1978 The reduction of bisulfite by Desulfovibrio vulgaris was investigated. Crude extracts reduced bisulfite to sulfide without the formation (detection) of any intermediates such as trithionate or thiosulfate. When the particulate fractions was removed from crude extracts by high-speed centrifugation, the soluble supernatant fraction reduced bisulfite ...
H L, Drake, J M, Akagi
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The Genomes of Desulfovibrio gigas and D. vulgaris [PDF]
Microbiology, 1984 Two-dimensional electrophoresis of sequential double-restriction digests showed that the genome of Desulfovibrio gigas compromised 1.63 x 10(6) bp (1.09 x 10(9) Dal) of DNA; an ammonia-limited chemostat population possessed an average of nine genomes per cell and a multiplying batch culture possessed approximately 17 genomes per cell.
J R, Postgate +3 more
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Cysteine synthesis by Desulfovibrio vulgaris extracts [PDF]
Journal of Bacteriology, 1980 Extracts of Desulfovibrio vulgaris were found to contain serine transacetylase and cysteine synthase activities. When extracts were incubated with bisulfite and o-acetylserine, or acetyl coenzyme A plus L-serine, under a hydrogen atmosphere, cysteine was formed.
D, Gevertz, R, Amelunxen, J M, Akagi
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