Use of the Caulobacter crescentus genome sequence to develop a method for systematic genetic mapping.
about
A bacterial extracellular DNA inhibits settling of motile progeny cells within a biofilmHuman Cells Require Non-stop Ribosome Rescue Activity in MitochondriaRegulation of D-xylose metabolism in Caulobacter crescentus by a LacI-type repressor.Localization of PBP3 in Caulobacter crescentus is highly dynamic and largely relies on its functional transpeptidase domain.Caulobacter crescentus requires RodA and MreB for stalk synthesis and prevention of ectopic pole formation.Identification of genes required for synthesis of the adhesive holdfast in Caulobacter crescentus.Bi-modal distribution of the second messenger c-di-GMP controls cell fate and asymmetry during the caulobacter cell cycle.Suppression of amber codons in Caulobacter crescentus by the orthogonal Escherichia coli histidyl-tRNA synthetase/tRNAHis pairGenetic analysis of a novel pathway for D-xylose metabolism in Caulobacter crescentus.The scaffolding and signalling functions of a localization factor impact polar development.Transcriptional profiling of Caulobacter crescentus during growth on complex and minimal mediaAsymmetric cellular memory in bacteria exposed to antibioticsThe β-sliding clamp directs the localization of HdaA to the replisome in Caulobacter crescentus.Dynamics and control of biofilms of the oligotrophic bacterium Caulobacter crescentus.Function and localization dynamics of bifunctional penicillin-binding proteins in Caulobacter crescentus.LytM factors affect the recruitment of autolysins to the cell division site in Caulobacter crescentus.Halotolerant aminopeptidase M29 from Mesorhizobium SEMIA 3007 with biotechnological potential and its impact on biofilm synthesis.Diverse functions for six glycosyltransferases in Caulobacter crescentus cell wall assemblyRelease of nonstop ribosomes is essential.The Caulobacter crescentus ctrA P1 promoter is essential for the coordination of cell cycle events that prevent the overinitiation of DNA replication.DivL performs critical cell cycle functions in Caulobacter crescentus independent of kinase activity.Mutations in DivL and CckA rescue a divJ null mutant of Caulobacter crescentus by reducing the activity of CtrA.Mutations in Sugar-Nucleotide Synthesis Genes Restore Holdfast Polysaccharide Anchoring to Caulobacter crescentus Holdfast Anchor Mutants.Obstruction of pilus retraction stimulates bacterial surface sensing.Gene network analysis identifies a central post-transcriptional regulator of cellular stress survival.Coherent Feedforward Regulation of Gene Expression by Caulobacter σ and GsrN during Hyperosmotic Stress
P2860
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P2860
Use of the Caulobacter crescentus genome sequence to develop a method for systematic genetic mapping.
description
2002 nî lūn-bûn
@nan
2002 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@ast
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@en
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@nl
type
label
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@ast
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@en
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@nl
prefLabel
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@ast
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@en
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@nl
P2093
P2860
P1476
Use of the Caulobacter crescen ...... or systematic genetic mapping.
@en
P2093
Craig Stephens
Desiree Yang
Lisandra West
P2860
P304
P356
10.1128/JB.184.8.2155-2166.2002
P407
P577
2002-04-01T00:00:00Z