Analysis of a Borrelia burgdorferi phosphodiesterase demonstrates a role for cyclic-di-guanosine monophosphate in motility and virulence.
about
Molecular signaling mechanisms of the periopathogen, Treponema denticolaAnalysis of the Borrelia burgdorferi cyclic-di-GMP-binding protein PlzA reveals a role in motility and virulenceCyclic di-GMP signalling and the regulation of bacterial virulenceThe diguanylate cyclase, Rrp1, regulates critical steps in the enzootic cycle of the Lyme disease spirochetes.A novel gene inactivation system reveals altered periplasmic flagellar orientation in a Borrelia burgdorferi fliL mutantThe unique paradigm of spirochete motility and chemotaxis.Carbon storage regulator A (CsrA(Bb)) is a repressor of Borrelia burgdorferi flagellin protein FlaB.The cyclic-di-GMP signaling pathway in the Lyme disease spirochete, Borrelia burgdorferiDeletion of the cyclic di-AMP phosphodiesterase gene (cnpB) in Mycobacterium tuberculosis leads to reduced virulence in a mouse model of infection.Cyclic di-GMP is essential for the survival of the lyme disease spirochete in ticksOf ticks, mice and men: understanding the dual-host lifestyle of Lyme disease spirochaetes.A systematic analysis of the in vitro and in vivo functions of the HD-GYP domain proteins of Vibrio cholerae.Spirochetal motility and chemotaxis in the natural enzootic cycle and development of Lyme diseaseCsrA modulates levels of lipoproteins and key regulators of gene expression critical for pathogenic mechanisms of Borrelia burgdorferi.The hybrid histidine kinase Hk1 is part of a two-component system that is essential for survival of Borrelia burgdorferi in feeding Ixodes scapularis ticksAnalysis of the HD-GYP domain cyclic dimeric GMP phosphodiesterase reveals a role in motility and the enzootic life cycle of Borrelia burgdorferi.Oligopeptide permease A5 modulates vertebrate host-specific adaptation of Borrelia burgdorferi.Synthesis of RpoS is dependent on a putative enhancer binding protein Rrp2 in Borrelia burgdorferi.Motor rotation is essential for the formation of the periplasmic flagellar ribbon, cellular morphology, and Borrelia burgdorferi persistence within Ixodes scapularis tick and murine hosts.The Borrelia burgdorferi RelA/SpoT Homolog and Stringent Response Regulate Survival in the Tick Vector and Global Gene Expression during StarvationA high-throughput genetic screen identifies previously uncharacterized Borrelia burgdorferi genes important for resistance against reactive oxygen and nitrogen species.Borrelia burgdorferi and tick proteins supporting pathogen persistence in the vector.Virulence of the Lyme disease spirochete before and after the tick bloodmeal: a quantitative assessment.Borrelia host adaptation Regulator (BadR) regulates rpoS to modulate host adaptation and virulence factors in Borrelia burgdorferi.The HtrA protease of Borrelia burgdorferi degrades outer membrane protein BmpD and chemotaxis phosphatase CheX.Motility is crucial for the infectious life cycle of Borrelia burgdorferi.Borrelia burgdorferi CheD Promotes Various Functions in Chemotaxis and the Pathogenic Life Cycle of the SpirocheteContributions of environmental signals and conserved residues to the functions of carbon storage regulator A of Borrelia burgdorferi.Borrelia burgdorferi CheY2 Is Dispensable for Chemotaxis or Motility but Crucial for the Infectious Life Cycle of the Spirochete.Cyclic Di-GMP receptor PlzA controls virulence gene expression through RpoS in Borrelia burgdorferi.In vivo expression technology and 5' end mapping of the Borrelia burgdorferi transcriptome identify novel RNAs expressed during mammalian infection.DhhP, a cyclic di-AMP phosphodiesterase of Borrelia burgdorferi, is essential for cell growth and virulenceSpirochetes flagellar collar protein FlbB has astounding effects in orientation of periplasmic flagella, bacterial shape, motility, and assembly of motors in Borrelia burgdorferi.The Borrelia burgdorferi CheY3 response regulator is essential for chemotaxis and completion of its natural infection cycle.Cyclic-di-GMP binding induces structural rearrangements in the PlzA and PlzC proteins of the Lyme disease and relapsing fever spirochetes: a possible switch mechanism for c-di-GMP-mediated effector functions.Sleeper cells: the stringent response and persistence in the Borreliella (Borrelia) burgdorferi enzootic cycle.A single-domain FlgJ contributes to flagellar hook and filament formation in the Lyme disease spirochete Borrelia burgdorferi.The characterization of a cyclic-di-GMP (c-Di-GMP) pathway leads to a new tool for studying c-Di-GMP metabolic genes.Gene Regulation, Two Component Regulatory Systems, and Adaptive Responses in Treponema Denticola.Multiple diguanylate cyclase-coordinated regulation of pyoverdine synthesis in Pseudomonas aeruginosa.
P2860
Q21146963-16D899E4-1CC7-4A21-A3B8-3EF997E52053Q24600004-409B923F-2C40-43A0-8DF3-C2878399A7B4Q26824992-95F42497-0741-4B87-BE5B-9F39CFA883ACQ30501663-E29F4138-A1BE-4E3F-9E27-B17B0279B564Q30502361-4CE4216C-5E95-4714-96D1-BD1B50F28B16Q30544647-06082930-C953-4490-A280-BFC82F8F5711Q31038801-FC4D4F93-DF91-4C2C-844B-1A4AA687BC69Q33579968-552DF650-63EE-4CB2-A64C-178CA25E0AC0Q33870379-8CD11ECC-3A2F-4FDE-9F6A-9E4C8F6062F1Q33954418-B567E0A1-FA04-48F5-B5FE-AD496052D2A0Q34245905-644BE2F6-E09F-410A-9B66-C0F542E3ACC5Q34416755-731DDBE6-D124-4CC2-ACA3-1B22D226F65AQ34500039-9B83E6A3-53C1-4912-B0E9-1D54EECB21CFQ34529598-3F939F89-CAC9-43E7-A73A-E2D2188AC096Q35139218-40CDC640-4E99-4D71-B59D-EC10F904AB63Q35139290-56BD455A-B0BD-483A-9A4A-7E63D859EBA6Q35139390-55A1678C-F8EF-4F85-83C0-AE77B166B586Q35165390-FDE102CF-D5C6-4023-AB76-A4D4FEF19819Q35439711-7C481A83-D164-4C77-96EE-11319C4047CFQ35775775-2BB5951C-D334-4DAC-B969-5BF1E1EA6807Q36284155-4E3247A1-F32D-49FF-9894-8EAC3F627B54Q36588072-6D561161-38C8-4B5C-8D8A-954719CDB4E9Q36657384-248E16B3-04BE-41F1-A755-01B1C5231DE8Q36789833-1FC6EA8E-F6A1-4453-85C7-4AE0F8C4C8EFQ36811110-F3EB3F39-DFB2-46D6-9BFE-2FCFFAD41B02Q36911398-06C8F259-EFD0-46E1-9A37-86E734BEDEA0Q37002330-5C05DC8C-164D-4BBE-927F-EBD71D17F387Q37036121-7934335D-9892-47F1-A9C1-A7C81C348D72Q37546928-3D7C7F0E-3A02-4162-B89D-27E980377294Q37548131-866A72D3-F4E3-4C7C-8EDB-7B639943A784Q37649482-51980128-1139-4E0B-AE5B-1BDBB39EB6D7Q37713363-6D37CBE3-CCC3-4806-8844-5905BE976335Q38412570-F222F9AF-27B1-4DF9-86C6-AD0C0253FFA8Q38414296-156ACD69-7737-47F7-B19E-7116F60A9519Q40079862-6FF7604B-6859-4551-9EBA-CC2ED7EF6790Q40081460-A4E9F8A4-54D9-44AC-BDFA-0B6EC2C6BBC6Q40870967-4D754E97-2A75-42EC-A454-B081C0C276F4Q41892829-08ED2065-5423-4E96-A64E-2ED387B7D690Q45069937-FD9C9724-E48D-466B-8D32-2940A7C1AF6DQ46772463-5C221159-C8D3-4FD4-B4C7-C27FAE1F0EBC
P2860
Analysis of a Borrelia burgdorferi phosphodiesterase demonstrates a role for cyclic-di-guanosine monophosphate in motility and virulence.
description
2010 nî lūn-bûn
@nan
2010 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Analysis of a Borrelia burgdor ...... ate in motility and virulence.
@ast
Analysis of a Borrelia burgdor ...... ate in motility and virulence.
@en
type
label
Analysis of a Borrelia burgdor ...... ate in motility and virulence.
@ast
Analysis of a Borrelia burgdor ...... ate in motility and virulence.
@en
prefLabel
Analysis of a Borrelia burgdor ...... ate in motility and virulence.
@ast
Analysis of a Borrelia burgdor ...... ate in motility and virulence.
@en
P2093
P2860
P1476
Analysis of a Borrelia burgdor ...... hate in motility and virulence
@en
P2093
Joshua E Pitzer
Michael R Miller
Syed Z Sultan
P2860
P304
P356
10.1111/J.1365-2958.2010.07191.X
P407
P577
2010-04-27T00:00:00Z