The CtrA response regulator mediates temporal control of gene expression during the Caulobacter cell cycle
about
The diversity and evolution of cell cycle regulation in alpha-proteobacteria: a comparative genomic analysisSpatial complexity and control of a bacterial cell cycleGlobal regulation of gene expression and cell differentiation in Caulobacter crescentus in response to nutrient availabilityEpigenetic gene regulation in the bacterial worldIdentification and cell cycle control of a novel pilus system in Caulobacter crescentusTemporal regulation of genes encoding the flagellar proximal rod in Caulobacter crescentus.A dual binding site for integration host factor and the response regulator CtrA inside the Caulobacter crescentus replication origin.A homolog of the CtrA cell cycle regulator is present and essential in Sinorhizobium melilotiThe Brucella abortus CcrM DNA methyltransferase is essential for viability, and its overexpression attenuates intracellular replication in murine macrophages.Getting in the loop: regulation of development in Caulobacter crescentus.Bacterial DNA methylation: a cell cycle regulator?Expression of ZmMET1, a gene encoding a DNA methyltransferase from maize, is associated not only with DNA replication in actively proliferating cells, but also with altered DNA methylation status in cold-stressed quiescent cellsDirect interaction of FliX and FlbD is required for their regulatory activity in Caulobacter crescentus.The CcrM DNA methyltransferase of Agrobacterium tumefaciens is essential, and its activity is cell cycle regulated.Roles of DNA adenine methylation in regulating bacterial gene expression and virulenceDNA adenine methylase is essential for viability and plays a role in the pathogenesis of Yersinia pseudotuberculosis and Vibrio cholerae.Genes directly controlled by CtrA, a master regulator of the Caulobacter cell cycle.A signal transduction protein cues proteolytic events critical to Caulobacter cell cycle progression.Dynamical modeling of the cell cycle and cell fate emergence in Caulobacter crescentus.CtrA mediates a DNA replication checkpoint that prevents cell division in Caulobacter crescentus.A cell-type-specific protein-protein interaction modulates transcriptional activity of a master regulator in Caulobacter crescentus.Effect of a ctrA promoter mutation, causing a reduction in CtrA abundance, on the cell cycle and development of Caulobacter crescentus.A phospho-signaling pathway controls the localization and activity of a protease complex critical for bacterial cell cycle progressionComparative genomic evidence for a close relationship between the dimorphic prosthecate bacteria Hyphomonas neptunium and Caulobacter crescentus.Transcriptome analysis of cyst formation in Rhodospirillum centenum reveals large global changes in expression during cyst development.Insights into the CtrA regulon in development of stress resistance in obligatory intracellular pathogen Ehrlichia chaffeensis.Dynamical Localization of DivL and PleC in the Asymmetric Division Cycle of Caulobacter crescentus: A Theoretical Investigation of Alternative Models.New criteria for selecting the origin of DNA replication in Wolbachia and closely related bacteria.A DNA methylation ratchet governs progression through a bacterial cell cycleCell Cycle Constraints and Environmental Control of Local DNA Hypomethylation in α-Proteobacteria.Feedback control of a master bacterial cell-cycle regulatorComplex regulatory pathways coordinate cell-cycle progression and development in Caulobacter crescentus.Genetic and Transcriptional Analyses of the Flagellar Gene Cluster in Actinoplanes missouriensisThe Caulobacter crescentus DNA-(adenine-N6)-methyltransferase CcrM methylates DNA in a distributive manner.Salmonella DNA adenine methylase mutants elicit protective immune responses to homologous and heterologous serovars in chickensDNA methylation affects the cell cycle transcription of the CtrA global regulator in Caulobacter.Conserved response regulator CtrA and IHF binding sites in the alpha-proteobacteria Caulobacter crescentus and Rickettsia prowazekii chromosomal replication originsGlutamate at the phosphorylation site of response regulator CtrA provides essential activities without increasing DNA binding.Selective cell cycle transcription requires membrane synthesis in Caulobacter.Homologues of Genetic Transformation DNA Import Genes Are Required for Rhodobacter capsulatus Gene Transfer Agent Recipient Capability Regulated by the Response Regulator CtrA
P2860
Q21202786-694B5746-E176-4CCC-991F-AD1F854BFC56Q24643973-1CE19937-3AEC-4323-8A91-EE8B717EEB54Q24656385-29D9A69F-869C-4C43-B40C-B6F998A8E63AQ24669987-E9CD67D3-4951-4B2E-BE69-9B4CB55B487FQ29346644-A37CF96D-F3BA-4762-A075-44CCEB496EDEQ29346649-F789C316-15FD-4048-BC08-F26C0A2CFF36Q29346650-A6BF8F55-914D-4458-88D3-5A7A8E169BD3Q29346925-67E9D0C0-FE6B-433D-877E-70C823EDA401Q33602895-DAF605BB-975C-49C3-AB06-BC5F14EF3427Q33704461-B02EEE60-89AB-498F-98CD-7123339BC1CFQ33721124-FD9F7A4D-3FF8-4D9C-8449-CC47B6669681Q33786696-DEC86E00-8133-48D6-9AFC-FBFF07A9DB20Q33887590-DFEACE59-D3D0-4764-B809-F488176018C2Q33996170-B31379B0-B307-4BC2-B5DF-591278B7C593Q34009521-20BB7EA4-9395-4C38-985F-C9C1A84DC003Q34009783-811D35F2-DF30-4F36-B983-01EC0F6676BDQ34049410-9F8E4FD7-5A23-4B9F-8CE5-34AAEE45B94AQ34191983-A8BB5DC0-343A-4276-9A1B-B5E5ABC35F35Q34450213-6ACD8F32-418B-40DD-9B92-B53DE6468C1EQ34488410-2067DDB8-61A0-41CC-A4D6-77C1B171F6F7Q34774563-C6BA3593-01A7-4EAD-94F9-1FDD9F2F68D7Q34833297-39F14516-3924-4C24-AC00-1E7A5A4286EBQ34984199-0C35D3B5-B3FE-42ED-B725-C07613E770A9Q35075653-DA7C4023-677A-455D-9BBF-F07E1774685FQ35121971-D317C516-9F7F-43EC-8DE4-6B2236AE4ABAQ35621955-21A99DE0-BA44-4D94-BFA1-48E58897613BQ35694454-F791B0C8-3654-4FCC-AFFE-C33C857A2EBEQ35881147-B718D1BE-BA10-424A-B8DD-A082E4A3CD42Q36089377-C40014EE-9549-4FEF-B261-67A459EC9DD2Q36229443-F1670463-EE43-4FD7-A314-E8A07A02E0DDQ36378017-8A61233C-813E-49D0-9130-74746E364F8CQ37052644-2C3CF57E-9C09-426B-9423-0F8D44EFBA06Q37138138-FA6CFA5B-9A1F-4806-938C-A39DFADAE4C4Q37934241-E215068F-2079-4159-A96A-7BCB65B0009BQ38455796-2F187435-9948-495C-9AEA-588DB1683AC1Q39648258-10FB1B52-4B7A-452C-9EBD-2E99025BF69FQ39694855-2709C5AB-BB15-434D-BD4C-BC33198066A4Q39744747-86A8BD43-FB1C-4E7A-A287-545A03B01EDEQ40387106-FC21D8EE-5977-48C1-912A-4C97E232CC92Q41703108-83F4F0E6-DAD0-4553-88E3-4CB948309747
P2860
The CtrA response regulator mediates temporal control of gene expression during the Caulobacter cell cycle
description
1999 nî lūn-bûn
@nan
1999 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@ast
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@en
type
label
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@ast
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@en
prefLabel
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@ast
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@en
P2093
P2860
P1476
The CtrA response regulator me ...... ing the Caulobacter cell cycle
@en
P2093
P2860
P304
P407
P577
1999-04-01T00:00:00Z