Results 21 to 30 of about 11,897 (178)
The Internal Membranes of Caulobacter Crescentus [PDF]
SUMMARY: The intracytoplasmic membranous structures previously observed in various caulobacter species by electron microscopy of thin sections were studied further by electron microscopy of whole organisms of Caulobacter crescentus negatively stained with phosphotungstate. The large, complex mesosomes are intrusions of the cell membrane. They appeared,
G, Cohen-Bazire +2 more
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Flagellar Perturbations Activate Adhesion through Two Distinct Pathways in Caulobacter crescentus
Understanding how bacteria colonize solid surfaces is of significant clinical, industrial and ecological importance.
David M. Hershey +2 more
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Galactose catabolism in Caulobacter crescentus [PDF]
Caulobacter crescentus wild-type strain CB13 is unable to utilize galactose as the sole carbon source unless derivatives of cyclic AMP are present. Spontaneous mutants have been isolated which are able to grow on galactose in the absence of exogenous cyclic nucleotides.
N, Kurn, I, Contreras, L, Shapiro
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Analysis of caulobacter crescentus lipids [PDF]
The lipids of Caulobacter crescentus, a procaryotic species which differentiates into stalked and swarmer cell types, were analyzed. Major lipid classes were purified by chromatography and identified by both chromatographic and chemical methods.
A J, De Siervo, A D, Homola
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Structure of Caulobacter deoxyribonucleic acid [PDF]
The deoxyribonucleic acid of the dimorphic bacterium Caulobacter crescentus contains a component that renatures with rapid, unimolecular kinetics. This component was present in both swarmer and stalked cells and exhibited the sensitivity to endonuclease S1 expected for hairpin loops. Double-stranded side branches between 100 and 600 nucleotide pairs in
N B, Wood, A V, Rake, L, Shapiro
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Hypochlorous acid (bleach), an oxidizing compound produced by neutrophils, turns the Escherichia coli chaperedoxin CnoX into a powerful holdase protecting its substrates from bleach-induced aggregation.
Camille V. Goemans +5 more
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Utilization of Histidine by Caulobacter crescentus [PDF]
Caulobacter crescentus has an inducible pathway which is responsible for the degradation of histidine. Induction of this pathway occurs in the presence of both glucose and ammonia. Growth yield experiments indicate that only two of the three available nitrogens are used for growth suggesting that formamide may be produced as a waste product.
D M, Ferber, F, Khambaty, B, Ely
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Stalkless mutants of Caulobacter crescentus [PDF]
A stalk, a single falgellum, several pili, and deoxyribonucleic acid (DNA) phage receptors are polar surface structures expressed at a defined time in the Caulobacter crescentus cell cycle. When mutants were isolated as DNA phage phiCbK-resistant or ribonucleic acid (RNA) phage phiCp2-resistant, as well as nonmotile, strains, 5 out of 30 such mutant ...
A, Fukuda, H, Iba, Y, Okada
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The ClpXP protease is a highly conserved AAA+ degradation machine that is present throughout bacteria and in eukaryotic organelles. ClpXP is essential in some bacteria, such as Caulobacter crescentus, but dispensible in others, such as Escherichia coli ...
Robert H. Vass +3 more
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Bacterial actin MreB forms antiparallel double filaments
Filaments of all actin-like proteins known to date are assembled from pairs of protofilaments that are arranged in a parallel fashion, generating polarity.
Fusinita van den Ent +4 more
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