Complex regulatory pathways coordinate cell-cycle progression and development in Caulobacter crescentus.
about
A bacterial extracellular DNA inhibits settling of motile progeny cells within a biofilmAdhesins Involved in Attachment to Abiotic Surfaces by Gram-Negative BacteriaShort-Stalked Prosthecomicrobium hirschii Cells Have a Caulobacter-Like Cell Cycle.Phase resetting reveals network dynamics underlying a bacterial cell cyclePolar localization of the CckA histidine kinase and cell cycle periodicity of the essential master regulator CtrA in Caulobacter crescentusA localized multimeric anchor attaches the Caulobacter holdfast to the cell pole.Single-gene tuning of Caulobacter cell cycle period and noise, swarming motility, and surface adhesionBypassing the need for subcellular localization of a polysaccharide export-anchor complex by overexpressing its protein subunits.Timescales and Frequencies of Reversible and Irreversible Adhesion Events of Single Bacterial CellsMechanisms and regulation of surface interactions and biofilm formation in AgrobacteriumSequential evolution of bacterial morphology by co-option of a developmental regulatorQuantification of ploidy in proteobacteria revealed the existence of monoploid, (mero-)oligoploid and polyploid speciesIdentification of a dehydrogenase required for lactose metabolism in Caulobacter crescentus.Regulatory response to carbon starvation in Caulobacter crescentus.Cellular polarity in prokaryotic organisms.Macromolecules that prefer their membranes curvy.Polar remodeling and histidine kinase activation, which is essential for Caulobacter cell cycle progression, are dependent on DNA replication initiationProtein localization by recognition of membrane curvature.Mechanisms of bacterial morphogenesis: evolutionary cell biology approaches provide new insights.Coordination of division and development influences complex multicellular behavior in Agrobacterium tumefaciensDipM, a new factor required for peptidoglycan remodelling during cell division in Caulobacter crescentusQuantitative proteomic analysis of cell cycle of the dinoflagellate Prorocentrum donghaiense (Dinophyceae).Holdfast spreading and thickening during Caulobacter crescentus attachment to surfacesSurface contact stimulates the just-in-time deployment of bacterial adhesinsFunctional characterization of UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferases of Escherichia coli and Caulobacter crescentus.Genomic Adaptations to the Loss of a Conserved Bacterial DNA Methyltransferase.Complete genome sequence of Hirschia baltica type strain (IFAM 1418(T))The adhesive and cohesive properties of a bacterial polysaccharide adhesin are modulated by a deacetylaseGenetic analysis of Agrobacterium tumefaciens unipolar polysaccharide production reveals complex integrated control of the motile-to-sessile switchMechanisms and regulation of polar surface attachment in Agrobacterium tumefaciens.Physiochemical properties of Caulobacter crescentus holdfast: a localized bacterial adhesive.An essential tyrosine phosphatase homolog regulates cell separation, outer membrane integrity, and morphology in Caulobacter crescentusA Rhizobiales-Specific Unipolar Polysaccharide Adhesin Contributes to Rhodopseudomonas palustris Biofilm Formation across Diverse Photoheterotrophic Conditions.Cohesive Properties of the Caulobacter crescentus Holdfast Adhesin Are Regulated by a Novel c-di-GMP Effector ProteinAn intracellular compass spatially coordinates cell cycle modules in Caulobacter crescentus.Improved enrichment and proteomic identification of outer membrane proteins from a Gram-negative bacterium: focus on Caulobacter crescentus.Co-ordinate synthesis and protein localization in a bacterial organelle by the action of a penicillin-binding-proteinThe histidine kinase PdhS controls cell cycle progression of the pathogenic alphaproteobacterium Brucella abortus.Mutations in Sugar-Nucleotide Synthesis Genes Restore Holdfast Polysaccharide Anchoring to Caulobacter crescentus Holdfast Anchor Mutants.
P2860
Q22065688-F5246FCE-38E8-4EA6-876A-DE5CBB8D2EAEQ26782609-1C9D139D-1D82-475E-A771-1E411CE6DED3Q27321731-724F5095-90E9-4487-A903-B57D11FB7419Q28485366-E56AAF08-AEC1-4BE0-A342-6B1EE7B4FB1CQ30492743-F2257CC1-B791-4FB3-8FA1-1CA5C6FFE9B6Q30495636-65A68EDA-4AB0-461F-93F1-4FC117903633Q30497852-2B4AADB9-1C1B-463C-AE06-63B72CC5A526Q30542658-5D4EC039-86AB-40BB-9459-2E7E7B701679Q30713040-0E10C6A5-B972-41BD-9018-23444770BD96Q33600455-6D4DB98C-B342-4DD3-9271-C553691B05A9Q33669617-DC1280BE-1367-4943-9B8D-88E274E26ADBQ33815752-EFF5EB02-746F-4ED9-BE35-B9023F3536F1Q33825925-DDBEF6F6-1842-4E09-8447-32058FC5653BQ33873499-EB2AA7EE-E4A3-42EE-8BE1-B82315D57329Q33899460-754D1372-EA4A-4DAD-93EE-6973AC10A052Q34018670-1D45060C-A10D-4037-A213-1C47E55074D2Q34045611-C2896221-16FD-4F2C-B6BA-6D0F24C7323EQ34367625-60A5419B-F9EC-46E9-8B66-5D7C505DDE06Q34461874-45969E6F-0261-458E-9E18-D377085203AEQ34599268-87C0C96F-F0CE-476F-AD67-036406507883Q34676672-513CC492-1A0E-4DF8-AEDB-136ED530768EQ34730850-2B1ECBDD-6D71-4B80-ADC8-5FCC37389608Q34777338-28DC10E5-E167-4802-820C-357DF310ECDDQ35631664-CB5ECD6B-9810-4481-A113-7FDAA8BB0769Q35943258-A2DCF9F8-2694-4914-A15A-DEE8A579DE9DQ36002688-54E5A4C0-4DAE-44F6-8D97-5DA3C5FFF826Q36011787-F6E3CB5A-ADB7-40FF-A1BF-CEAEED05E20BQ36788271-6316B0BD-3513-45E7-9287-49914B7FD3E1Q37237699-683349CE-4499-4841-9CAB-FE34B3E06161Q37437854-AB46AE18-1D34-45EC-BA2B-A1C815E8E4E3Q37588010-68449C5F-3A0D-40ED-A78F-BF8EF3294FC8Q38284469-541D2E37-92FF-487A-BD8C-F7A8CD16AF91Q38781670-0D226DB9-C544-410F-BE8E-35F15D8E73DFQ38888730-CAF4D8B4-E6AF-4E9A-AF29-673181890115Q38925725-CCB13F0C-CD39-4162-8F8B-ECAC0BBD75F0Q39439053-A2083588-D589-41E9-B0AA-12D8BFC8E771Q41819836-6F8FB03C-24A7-4AE2-8CFF-80E7B9BD4C88Q42700468-AB9550A1-CBE7-4C0E-B6FE-AF73F9055EBFQ47381707-FCF2A549-BF6C-4F2C-B5C4-AA1D492EA89F
P2860
Complex regulatory pathways coordinate cell-cycle progression and development in Caulobacter crescentus.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Complex regulatory pathways co ...... ent in Caulobacter crescentus.
@en
Complex regulatory pathways co ...... ent in Caulobacter crescentus.
@nl
type
label
Complex regulatory pathways co ...... ent in Caulobacter crescentus.
@en
Complex regulatory pathways co ...... ent in Caulobacter crescentus.
@nl
prefLabel
Complex regulatory pathways co ...... ent in Caulobacter crescentus.
@en
Complex regulatory pathways co ...... ent in Caulobacter crescentus.
@nl
P2860
P1476
Complex regulatory pathways co ...... ment in Caulobacter crescentus
@en
P2093
Gail G Hardy
Michael J Trimble
P2860
P356
10.1016/S0065-2911(08)00001-5
P577
2009-01-01T00:00:00Z