Cell cycle-controlled proteolysis of a flagellar motor protein that is asymmetrically distributed in the Caulobacter predivisional cell.
about
Cell cycle-dependent dynamic localization of a bacterial response regulator with a novel di-guanylate cyclase output domainGet the message out: cyclic-Di-GMP regulates multiple levels of flagellum-based motilityPhosphotransferase-dependent accumulation of (p)ppGpp in response to glutamine deprivation in Caulobacter crescentus.Structure of the Cytoplasmic Domain of the Flagellar Secretion Apparatus Component FlhA from Helicobacter pyloriAllosteric regulation of histidine kinases by their cognate response regulator determines cell fatePflI, a protein involved in flagellar positioning in Caulobacter crescentusA four-dimensional view of assembly of a morphogenetic protein during sporulation in Bacillus subtilisCell cycle-dependent transcriptional and proteolytic regulation of FtsZ in CaulobacterA membrane-associated protein, FliX, is required for an early step in Caulobacter flagellar assembly.Temporal regulation of genes encoding the flagellar proximal rod in Caulobacter crescentus.The absence of a flagellum leads to altered colony morphology, biofilm development and virulence in Vibrio cholerae O139.Flagellin redundancy in Caulobacter crescentus and its implications for flagellar filament assemblyFlbT couples flagellum assembly to gene expression in Caulobacter crescentus.Getting in the loop: regulation of development in Caulobacter crescentus.An essential protease involved in bacterial cell-cycle control.Identification and transcriptional control of the genes encoding the Caulobacter crescentus ClpXP protease.Fructose uptake in Sinorhizobium meliloti is mediated by a high-affinity ATP-binding cassette transport systemIdentification of a localization factor for the polar positioning of bacterial structural and regulatory proteins.Polarity in action: asymmetric protein localization in bacteria.Role of the cytoplasmic C terminus of the FliF motor protein in flagellar assembly and rotation.Type III secretion systems and bacterial flagella: insights into their function from structural similarities.A phospho-signaling pathway controls the localization and activity of a protease complex critical for bacterial cell cycle progressionBi-modal distribution of the second messenger c-di-GMP controls cell fate and asymmetry during the caulobacter cell cycle.Proteomic analysis of the bacterial cell cycleIsolation and characterization of a xylose-dependent promoter from Caulobacter crescentus.Identification of the fliI and fliJ components of the Caulobacter flagellar type III protein secretion system.Direct and adaptor-mediated substrate recognition by an essential AAA+ proteaseIdentification of the protease and the turnover signal responsible for cell cycle-dependent degradation of the Caulobacter FliF motor proteinA NAD-dependent glutamate dehydrogenase coordinates metabolism with cell division in Caulobacter crescentus.Genetic tools for studying Capnocytophaga canimorsus.Second messenger-mediated spatiotemporal control of protein degradation regulates bacterial cell cycle progression.Regulated proteolysis in bacterial development.ClgR, a novel regulator of clp and lon expression in StreptomycesCohesive Properties of the Caulobacter crescentus Holdfast Adhesin Are Regulated by a Novel c-di-GMP Effector ProteinProteolysis of the McpA chemoreceptor does not require the Caulobacter major chemotaxis operon.Intergenic suppression between the flagellar MS ring protein FliF of Salmonella and FlhA, a membrane component of its export apparatus.Proteolysis of the Caulobacter McpA chemoreceptor is cell cycle regulated by a ClpX-dependent pathway.Degradation of a Caulobacter soluble cytoplasmic chemoreceptor is ClpX dependentDisappearance of the sigma E transcription factor from the forespore and the SpoIIE phosphatase from the mother cell contributes to establishment of cell-specific gene expression during sporulation in Bacillus subtilis.Hydrophobic carboxy-terminal residues dramatically reduce protein levels in the haloarchaeon Haloferax volcanii.
P2860
Q24627219-99C122EA-1C75-454F-8451-564BBF5D5D97Q24657841-0B248152-C7FD-42F0-9DF1-6297A40ADFBAQ27318553-2F38201A-FCE4-45D9-90FE-AA914E13DADAQ27661313-2EAD46B2-1A1F-44FB-8C9A-40D0B0DE0CF8Q28485820-7931019B-E335-47A3-9D29-845E7CFC0A63Q28485822-9704569D-9366-402B-B0F6-62B83B72DE43Q28488925-3CAC7E96-8093-4E61-8648-668726A93FBBQ29346645-8E6E6346-352E-4D31-98F1-5623174574D8Q29346646-508F182D-DFF4-4A93-A425-9F59A630F362Q29346649-EB2FF54F-7148-4502-BF88-28EB078D147EQ30327646-7B13001B-13EE-4191-8EAE-E45D99F3A2EEQ30502355-CC56E304-EE7B-44C7-8819-8C993A4B6BDAQ33636034-433D38DF-E224-47D0-8B29-26BD2392C980Q33704461-BA3208B8-12B1-4B5D-9130-647D9AFDE32EQ33889602-96A67A64-A7A3-4E10-84BC-AA5A321113DAQ33991991-C0BCA451-C6BD-4775-BCBD-8822A8732B51Q34011449-BA6AB8B1-DE69-41DC-9F2B-FEC779BF7692Q34161767-A2865037-2077-4161-8B90-620FB6DACFBBQ34245708-06B72410-3D72-462B-A35F-044F21B3D2EBQ34687317-5637D831-1E24-43F2-B1E5-D9EA38EAED7AQ34865653-5AE7284B-3A8E-4C31-A6DE-00057A2A6542Q34984199-E4A8A9F2-5576-48B2-8EEF-108AB7121C0AQ34988036-91AD374A-6827-4584-BB66-C0C92EE646CAQ35292736-66FB6065-C2AB-428B-A9E9-BAAE0128B0B5Q35619172-4781F96B-C8EA-47F4-98BC-3B39B59E0624Q35628835-9D6B8285-60AC-4B10-8B07-27F08A16C89AQ35800254-ADFE53DC-130F-40F2-9CC9-09D6D3A88A59Q35891846-1F5429EC-A0DA-4487-ADB3-725BED12C53EQ35893131-A63E0D16-2381-4D21-9CDA-0385C08904C2Q36943450-C46A6527-6151-4BF1-8902-891AE91096D2Q37075699-1880EF3B-0C91-4263-AE93-BD263374C311Q37728640-994809F8-9C31-43C2-9C02-9E4FF128EBEFQ37735578-F83185B8-C023-425E-B77F-AC5E83245A92Q38888730-1E4EA246-CE4B-4D9D-809D-CE7476068E6DQ39498623-98A6B6D8-028A-45A3-B8C0-A3178AA303BAQ39502769-F0BDA4E9-CE74-431B-B342-A2394485289BQ39504521-CC1AAB9C-1E0A-47D6-B16F-DD5623D1F2F5Q39680743-0EE46FF5-336A-41A3-A252-C4DA5860F47CQ39845759-8BEB1D47-DAD9-47E9-A22B-C461CA3C9776Q41255714-FC7A082C-3443-4012-B446-0BAC06335FA6
P2860
Cell cycle-controlled proteolysis of a flagellar motor protein that is asymmetrically distributed in the Caulobacter predivisional cell.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
1996年论文
@zh
1996年论文
@zh-cn
name
Cell cycle-controlled proteoly ...... aulobacter predivisional cell.
@ast
Cell cycle-controlled proteoly ...... aulobacter predivisional cell.
@en
type
label
Cell cycle-controlled proteoly ...... aulobacter predivisional cell.
@ast
Cell cycle-controlled proteoly ...... aulobacter predivisional cell.
@en
prefLabel
Cell cycle-controlled proteoly ...... aulobacter predivisional cell.
@ast
Cell cycle-controlled proteoly ...... aulobacter predivisional cell.
@en
P2860
P1433
P1476
Cell cycle-controlled proteoly ...... Caulobacter predivisional cell
@en
P2093
P2860
P304
P356
10.1002/J.1460-2075.1996.TB00597.X
P407
P577
1996-05-01T00:00:00Z