Proteomic analysis of the Caulobacter crescentus stalk indicates competence for nutrient uptake.
about
The selective value of bacterial shapeMolecular mechanisms for the evolution of bacterial morphologies and growth modesGeneral protein diffusion barriers create compartments within bacterial cellsThe BAM complex subunit BamE (SmpA) is required for membrane integrity, stalk growth and normal levels of outer membrane {beta}-barrel proteins in Caulobacter crescentus.NagA-dependent uptake of N-acetyl-glucosamine and N-acetyl-chitin oligosaccharides across the outer membrane of Caulobacter crescentus.Plant carbohydrate scavenging through tonB-dependent receptors: a feature shared by phytopathogenic and aquatic bacteriaCaulobacter crescentus requires RodA and MreB for stalk synthesis and prevention of ectopic pole formation.Getting in the loop: regulation of development in Caulobacter crescentus.Phosphate starvation triggers production and secretion of an extracellular lipoprotein in Caulobacter crescentus.Protein localization and dynamics within a bacterial organelle.Regulatory response to carbon starvation in Caulobacter crescentus.Cell-cycle progression and the generation of asymmetry in Caulobacter crescentus.A nutrient uptake role for bacterial cell envelope extensions.Low flagellar motor torque and high swimming efficiency of Caulobacter crescentus swarmer cells.Global analyses of transcriptomes and proteomes of a parent strain and an L-threonine-overproducing mutant strain.Advantages and mechanisms of polarity and cell shape determination in Caulobacter crescentusA top-down/bottom-up study of the ribosomal proteins of Caulobacter crescentus.Complex regulatory pathways coordinate cell-cycle progression and development in Caulobacter crescentus.Two outer membrane proteins contribute to cellular fitness in Caulobacter crescentus by preventing intracellular S-layer protein accumulation.ExbBD-dependent transport of maltodextrins through the novel MalA protein across the outer membrane of Caulobacter crescentus.Improved enrichment and proteomic identification of outer membrane proteins from a Gram-negative bacterium: focus on Caulobacter crescentus.Stalk formation of Brevundimonas and how it compares to Caulobacter crescentus.Co-ordinate synthesis and protein localization in a bacterial organelle by the action of a penicillin-binding-proteinLocalization of the outer membrane protein OmpA2 in Caulobacter crescentus depends on the position of the gene in the chromosome.Molecular toolbox for genetic manipulation of the stalked budding bacterium Hyphomonas neptunium.Characterization of outer membrane vesicles released by the psychrotolerant bacterium Pseudoalteromonas antarctica NF3Structure of the hexagonal surface layer on Caulobacter crescentus cells.
P2860
Q24669928-156336A9-82C0-4019-887A-8012F0CAC120Q27015816-BBEBE52D-5D61-433E-857A-5CA5C92A3D50Q29138519-16421C89-E305-4DFD-950F-A26451B08748Q30157034-9EE0EA3D-92FF-40E9-9D5B-DC97D0EF2179Q30157664-76E3EB1F-B24A-4003-B60D-A82CF626048FQ33274647-7F49A2FE-4093-46D6-9FB9-ADE6C878C162Q33700256-1B59D410-885A-4568-ABF8-0EA90DD3FBB0Q33704461-CA4F8EC2-99E0-4600-B028-39E2CEEBE9DBQ33769836-465BC18F-D0FE-4EED-BBAB-23876C03F446Q33777698-8E3CF6D7-5897-49E8-8AF7-77C2E6C0BCA0Q33873499-66F711A1-A0B7-4D4D-AFFD-1BA57769CD95Q34307110-113167C5-00B3-4E38-89E3-D7F9B7B9F24BQ34984558-EDA24D29-8CDC-4C55-82DA-8CD437951028Q35021413-B745A4F2-E5AD-4ABE-B22B-6EA317811F4EQ35921960-6FCAC715-4F16-4633-ADE6-E2C0DBCDE5CCQ36328070-60CF0A7E-7775-4F6D-8831-F6E210F2E492Q36877178-5444EBFD-26EA-46AF-825B-3CCFF74021A3Q37052644-E9C6A266-0716-4FBB-BD6B-A7D1E90DC8CAQ37405377-0935F7B6-71F4-46A2-94C3-132AAABDCCBEQ38318218-FCF02E5E-E477-4B87-ADC7-288755FFED29Q39439053-D0947879-440E-4A65-8517-B011B44456BCQ41494797-1FFCED50-8C39-4762-8B31-645F5D141A6CQ41819836-AB478F69-A05E-4A48-9C8D-7131FE15CB5CQ42019926-E5B439CE-1D01-4C6E-B5B6-2BC8D32CFC89Q42468564-C41DBACA-B828-4FFF-9D20-373BC1128438Q42667427-FF9022A9-34A5-4425-A219-8ABEAAA6773BQ47155644-68AB4D95-2BCE-42E9-B9FC-F070CD4B9296
P2860
Proteomic analysis of the Caulobacter crescentus stalk indicates competence for nutrient uptake.
description
2002 nî lūn-bûn
@nan
2002 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի օգոստոսին 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
Proteomic analysis of the Caul ...... ompetence for nutrient uptake.
@ast
Proteomic analysis of the Caul ...... ompetence for nutrient uptake.
@en
type
label
Proteomic analysis of the Caul ...... ompetence for nutrient uptake.
@ast
Proteomic analysis of the Caul ...... ompetence for nutrient uptake.
@en
prefLabel
Proteomic analysis of the Caul ...... ompetence for nutrient uptake.
@ast
Proteomic analysis of the Caul ...... ompetence for nutrient uptake.
@en
P2093
P2860
P1476
Proteomic analysis of the Caul ...... competence for nutrient uptake
@en
P2093
James P Reilly
Jonathan A Karty
Marcia M E Ireland
Yves V Brun
P2860
P304
P356
10.1046/J.1365-2958.2002.03071.X
P407
P577
2002-08-01T00:00:00Z