The LovK-LovR two-component system is a regulator of the general stress pathway in Caulobacter crescentus
about
From Plant Infectivity to Growth Patterns: The Role of Blue-Light Sensing in the Prokaryotic WorldNuclear Magnetic Resonance Structure and Dynamics of the Response Regulator Sma0114 from Sinorhizobium melilotiBasis of Mutual Domain Inhibition in a Bacterial Response RegulatorGeneral Stress Signaling in the AlphaproteobacteriaA cell cycle and nutritional checkpoint controlling bacterial surface adhesionLOV Histidine Kinase Modulates the General Stress Response System and Affects the virB Operon Expression in Brucella abortusRecombinant protein production data after expression in the bacterium Escherichia coli.The Brucella abortus virulence regulator, LovhK, is a sensor kinase in the general stress response signalling pathwayStructure and function of HWE/HisKA2-family sensor histidine kinases.Complex two-component signaling regulates the general stress response in Alphaproteobacteria.Two-tiered histidine kinase pathway involved in heat shock and salt sensing in the general stress response of Sphingomonas melonis Fr1.CspC regulates the expression of the glyoxylate cycle genes at stationary phase in Caulobacter.Multiple σEcfG and NepR Proteins Are Involved in the General Stress Response in Methylobacterium extorquens.Stressed by a Lov triangle.The Brucella abortus general stress response system regulates chronic mammalian infection and is controlled by phosphorylation and proteolysis.Arm-in-Arm Response Regulator Dimers Promote Intermolecular Signal TransductionCanonical and non-canonical EcfG sigma factors control the general stress response in Rhizobium etliThe Evolution and Functional Role of Flavin-based Prokaryotic Photoreceptors.Characterization of the general stress response in Bartonella henselaeSolving Blue Light Riddles: New Lessons from Flavin-binding LOV Photoreceptors.Ligand-induced folding of a two-component signaling receiver domain.Brucella abortus ΔrpoE1 confers protective immunity against wild type challenge in a mouse model of brucellosis.Diverse functions for six glycosyltransferases in Caulobacter crescentus cell wall assemblyA putative bifunctional histidine kinase/phosphatase of the HWE family exerts positive and negative control on the Sinorhizobium meliloti general stress response.A Native Threonine Coordinates Ordered Water to Tune Light-Oxygen-Voltage (LOV) Domain Photocycle Kinetics and Osmotic Stress Signaling in Trichoderma reesei ENVOY.Blue light regulated two-component systems: enzymatic and functional analyses of light-oxygen-voltage (LOV)-histidine kinases and downstream response regulatorsLOV-domain photoreceptor, encoded in a genomic island, attenuates the virulence of Pseudomonas syringae in light-exposed Arabidopsis leaves.Phosphorelay through the bifunctional phosphotransferase PhyT controls the general stress response in an alphaproteobacterium.A Single-Domain Response Regulator Functions as an Integrating Hub To Coordinate General Stress Response and Development in Alphaproteobacteria.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 StressIron Deficiency Generates Oxidative Stress and Activation of the SOS Response in
P2860
Q27007001-9B54B4A8-9E4B-4A29-97C0-A9AE93999CA3Q27671467-3BD71889-0D96-4270-ACA2-26D161978ABAQ27727690-9C0B1824-7A8F-479D-A38B-E0B7F47979D0Q28085365-7426DC07-0C50-44CC-89FA-E6D086242A3AQ28539050-F68D30B8-22D2-48D5-B3B8-D8E267E0D4CEQ28547347-150658DD-7A3A-4DE4-993A-26C5AAA0F836Q31063411-A4F03BEA-1034-492F-99A2-39BB39E73E63Q34490455-B263B30A-FF22-4300-BB12-4C0BE837AD05Q34551140-C792DF27-735C-4749-A6DB-FBA2D55454E3Q34661097-280CE690-23CB-4AEB-9422-423990791884Q35214802-72C040C0-62F2-437C-94AA-2BCBE7ACC278Q35756789-F77989F6-B8DE-409C-A22C-9862959D8520Q35974028-BB1C0D21-EBDC-471F-8B3B-D86FC630038AQ36019083-8E08E2A0-F024-4595-8170-3CD58BB75C09Q36832732-73A86355-9BC8-40C4-B96E-BD56FB2EE533Q36878430-BF650313-C9F8-4234-96EE-377245C8A338Q37480965-2980AF46-58E7-4CF9-884B-89FD4C451845Q38542158-682D7435-D526-4E53-B65A-AAC6FDD135E9Q38664257-6908FDD2-E298-4192-933D-09DE79281498Q39012870-4D4E9032-FE83-4FD7-A987-DA58E50DA1E2Q40394709-B226D01E-B074-4B34-B709-A8AE209E9D0EQ40552706-33FFFAA4-3912-46F0-A8F9-6E524AAA94CEQ41830871-3D148A3A-EAC7-403D-A07D-D5835BC813BAQ41937593-E9B778F0-7AFF-402F-A6C6-BED718655899Q41980447-05C6B8D2-32FB-406A-85FC-C90325433808Q42043280-41B8DC2F-88FD-4A39-AF4C-2DD22B5CADECQ47985804-B3042608-F43B-4740-BB53-61070BB45E66Q52322348-D339F023-C194-48CC-9089-0E1094B0CABBQ54201977-9C172148-8EBD-46BE-91D2-B02E8393DF54Q54256188-ABA54E1C-5FEA-44F5-9E14-863ED3F73083Q58072527-9F3D4855-A932-47E4-8D23-F53C11F73809Q58698476-B4E67D13-1FEF-4D7F-9876-1251DA813724
P2860
The LovK-LovR two-component system is a regulator of the general stress pathway in Caulobacter crescentus
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@en
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@nl
type
label
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@en
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@nl
prefLabel
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@en
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@nl
P2860
P356
P1476
The LovK-LovR two-component sy ...... hway in Caulobacter crescentus
@en
P2093
Robert Foreman
P2860
P304
P356
10.1128/JB.00182-12
P577
2012-03-09T00:00:00Z