In vivo phosphorylation dynamics of the Bordetella pertussis virulence-controlling response regulator BvgA.
about
Nutrient salvaging and metabolism by the intracellular pathogen Legionella pneumophilaAtypical OmpR/PhoB Subfamily Response Regulator GlnR of Actinomycetes Functions as a Homodimer, Stabilized by the Unphosphorylated Conserved Asp-focused Charge InteractionsDual-site phosphorylation of the control of virulence regulator impacts group a streptococcal global gene expression and pathogenesisQuantitative Kinetic Analyses of Shutting Off a Two-Component SystemGlobal effects of the DEAD-box RNA helicase DeaD (CsdA) on gene expression over a broad range of temperaturesAnti-adaptors provide multiple modes for regulation of the RssB adaptor proteinEvidence for phenotypic bistability resulting from transcriptional interference of bvgAS in Bordetella bronchiseptica.Bordetella pertussis fim3 gene regulation by BvgA: phosphorylation controls the formation of inactive vs. active transcription complexes.The post-transcriptional regulator rsmA/csrA activates T3SS by stabilizing the 5' UTR of hrpG, the master regulator of hrp/hrc genes, in Xanthomonas.Virulence regulation with Venus flytrap domains: structure and function of the periplasmic moiety of the sensor-kinase BvgSPhosphorylation events in the multiple gene regulator of group A Streptococcus significantly influence global gene expression and virulenceThe Bordetella Secreted Regulator BspR Is Translocated into the Nucleus of Host Cells via Its N-Terminal Moiety: Evaluation of Bacterial Effector Translocation by the Escherichia coli Type III Secretion System.Strong inhibition of fimbrial 3 subunit gene transcription by a novel downstream repressive element in Bordetella pertussisSeparation and Detection of Phosphorylated and Nonphosphorylated BvgA, a Bordetella pertussis Response Regulator, in vivo and in vitro.FimY does not interfere with FimZ-FimW interaction during type 1 fimbria production by Salmonella enterica serovar Typhimurium.Signal-specific temporal response by the Salmonella PhoP/PhoQ regulatory system.The Cutting Edge of Affinity Electrophoresis Technology.Functional Dissection of the CroRS Two-Component System Required for Resistance to Cell Wall Stressors in Enterococcus faecalis.The extent of the temperature-induced membrane remodeling in two closely related Bordetella species reflects their adaptation to diverse environmental niches.Signal Transduction by BvgS Sensor Kinase: BINDING OF MODULATOR NICOTINATE AFFECTS THE CONFORMATION AND DYNAMICS OF THE ENTIRE PERIPLASMIC MOIETY.The ChrSA and HrrSA Two-Component Systems Are Required for Transcriptional Regulation of the hemA Promoter in Corynebacterium diphtheriae.The BvgAS Regulon of Bordetella pertussis.Activation of Bvg-Repressed Genes in Bordetella pertussis by RisA Requires Cross Talk from Noncooperonic Histidine Kinase RisK.Regulation of virulence gene expression.The complete genome sequence of Vibrio aestuarianus W-40 reveals virulence factor genes.Coiled-Coil Antagonism Regulates Activity of Venus Flytrap-Domain-Containing Sensor Kinases of the BvgS Family.A Novel Bvg-Repressed Promoter Causes -Like Transcription of but Does Not Result in the Production of Serotype 3 Fimbriae in Bvg Mode Bordetella pertussis
P2860
Q26864957-2783DF58-9161-4C6A-8D12-47536AFC7894Q27683358-DA2913C2-F109-418C-9390-2F9D42C806BBQ33553819-36CED520-132A-400C-9677-B2D3730CD647Q33691864-79118838-CD8C-42C5-9B28-77F8DD8C0E1BQ33724452-7D406865-6A35-4FFA-9BC2-C2997ACD386DQ34392954-C4B686AD-8396-4454-A13C-5DC84E4E89ACQ34438161-4688F038-3723-41BB-BE94-76555369938FQ35089932-C36C6BEA-9179-49E3-A369-B9445A93F929Q35105638-D2BDB861-C8FD-4758-B500-039EE8C3BEC4Q35155056-26B91811-D810-4FB4-B2C1-92657A1D8786Q35609320-38B31EDC-2A64-4BD1-A6F5-9F876366DCB2Q35738591-6D0A1DA3-B02A-4160-9F4A-9A170EFD6433Q36347474-9D66E80D-935C-4A8C-B97E-B1F6CCDC161DQ37333870-BC7A01D4-5A09-4016-9CE4-CEFF6F783868Q37336075-6CC788B3-C925-4D3D-AECF-CC7E00472747Q37473438-51C6DCBB-B250-4A9C-B5B9-3FF5B95D8E69Q39156143-62470A4E-D445-4779-B23E-6EE35586B7CAQ39992330-06F8E4A0-38F2-4069-9E92-C6FEE903B575Q40276565-683A34AA-E202-4E03-A218-1554E8FFCA8FQ41094080-9C987899-9517-49B8-A9F0-51E8ECF82347Q41106567-D3572562-80DF-4076-B660-683ED52DCB8BQ41919766-1CE88DB3-6903-4149-B7D2-9640D38C2E5FQ42380569-3989CA76-8E2E-4E38-81C5-10297788FBF4Q43226563-16B446EB-EEE6-498C-A0EE-67C1F6FB3F71Q47218806-3530031C-CE03-4139-A72D-CD6223074146Q52682455-567CBAF4-C493-494C-BB2C-0EEF69FD60E7Q57469975-DE722ECA-CF7F-4C1F-8D9E-72ED7F9FAED3
P2860
In vivo phosphorylation dynamics of the Bordetella pertussis virulence-controlling response regulator BvgA.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@ast
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@en
type
label
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@ast
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@en
prefLabel
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@ast
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@en
P2093
P2860
P356
P1476
In vivo phosphorylation dynami ...... lling response regulator BvgA.
@en
P2093
Alice Boulanger
Deborah M Hinton
Scott Stibitz
P2860
P304
P356
10.1111/MMI.12177
P407
P577
2013-03-14T00:00:00Z