CovS inactivates CovR and is required for growth under conditions of general stress in Streptococcus pyogenes
about
Microevolution of group A streptococci in vivo: capturing regulatory networks engaged in sociomicrobiology, niche adaptation, and hypervirulenceFunctional analysis of the group A streptococcal luxS/AI-2 system in metabolism, adaptation to stress and interaction with host cellsTrxR, a new CovR-repressed response regulator that activates the Mga virulence regulon in group A StreptococcusStress Physiology of Lactic Acid BacteriaPerR confers phagocytic killing resistance and allows pharyngeal colonization by group A StreptococcusDispersal of Group A streptococcal biofilms by the cysteine protease SpeB leads to increased disease severity in a murine modelThermoregulation of capsule production by Streptococcus pyogenesEnvironmental acidification drives S. pyogenes pilus expression and microcolony formation on epithelial cells in a FCT-dependent mannerA Two-Component Regulatory System Impacts Extracellular Membrane-Derived Vesicle Production in Group A StreptococcusYvqE and CovRS of Group A Streptococcus Play a Pivotal Role in Viability and Phenotypic Adaptations to Multiple Environmental StressesThreonine phosphorylation prevents promoter DNA binding of the Group B Streptococcus response regulator CovR.Regulation of gbpC expression in Streptococcus mutans.A phenotypic microarray analysis of a Streptococcus mutans liaS mutantThe Abi-domain protein Abx1 interacts with the CovS histidine kinase to control virulence gene expression in group B Streptococcus.Serotype- and strain- dependent contribution of the sensor kinase CovS of the CovRS two-component system to Streptococcus pyogenes pathogenesisA combination of independent transcriptional regulators shapes bacterial virulence gene expression during infectionDual-site phosphorylation of the control of virulence regulator impacts group a streptococcal global gene expression and pathogenesisClindamycin-induced CovS-mediated regulation of the production of virulent exoproteins streptolysin O, NAD glycohydrolase, and streptokinase in Streptococcus pyogenes.Emerging role of the interleukin-8 cleaving enzyme SpyCEP in clinical Streptococcus pyogenes infectionActivation of the SMU.1882 transcription by CovR in Streptococcus mutans.Genetic switch to hypervirulence reduces colonization phenotypes of the globally disseminated group A streptococcus M1T1 clone.CovR-controlled global regulation of gene expression in Streptococcus mutansTwo group A streptococcal peptide pheromones act through opposing Rgg regulators to control biofilm development.Essential Genes in the Core Genome of the Human Pathogen Streptococcus pyogenes.Signal transduction through CsrRS confers an invasive phenotype in group A Streptococcus.Proteome driven re-evaluation and functional annotation of the Streptococcus pyogenes SF370 genomeSrv mediated dispersal of streptococcal biofilms through SpeB is observed in CovRS+ strainsRscA, a member of the MDR1 family of transporters, is repressed by CovR and required for growth of Streptococcus pyogenes under heat stress.Regulation of SpeB in Streptococcus pyogenes by pH and NaCl: a model for in vivo gene expressionDisease manifestations and pathogenic mechanisms of Group A Streptococcus.RivR and the small RNA RivX: the missing links between the CovR regulatory cascade and the Mga regulon.An insert in the covS gene distinguishes a pharyngeal and a blood isolate of Streptococcus pyogenes found in the same individualMaltodextrin utilization plays a key role in the ability of group A Streptococcus to colonize the oropharynxGroup A Streptococcus transcriptome dynamics during growth in human blood reveals bacterial adaptive and survival strategies.Characterization of the effect of the histidine kinase CovS on response regulator phosphorylation in group A Streptococcus.Counteractive balancing of transcriptome expression involving CodY and CovRS in Streptococcus pyogenes.Mutations in the control of virulence sensor gene from Streptococcus pyogenes after infection in mice lead to clonal bacterial variants with altered gene regulatory activity and virulence.Analysis of the transcriptome of group A Streptococcus in mouse soft tissue infectionSerine/threonine protein kinase Stk is required for virulence, stress response, and penicillin tolerance in Streptococcus pyogenes.In vitro manganese-dependent cross-talk between Streptococcus mutans VicK and GcrR: implications for overlapping stress response pathways
P2860
Q21142618-29267725-2339-4588-A16F-48FCC2062D25Q21263070-12018CF0-79DA-409A-AE48-581CCD958931Q24646524-D6B8042F-7D66-4DFD-87AF-5717A6C8DBAFQ26741272-69BC5D70-BA9A-45A6-AAEC-A53912683460Q27318492-EC98C900-0B1B-4C48-BD29-6EDBD6C26026Q28477890-C9CC00A2-81E1-46C1-B60F-108BE02ED6EFQ28729897-C54D9ED0-A7B9-4169-B751-9909D29A96AEQ28748545-4972D56D-ACA3-4D8B-B893-17DD663AD4CDQ29114103-503E7AE5-5721-4D7D-A99B-6378CEC3D7BCQ29248567-518F045F-112E-4DFA-8ED2-B6B9DB8E5329Q29346576-E7FB8868-5E54-4B71-A90A-DA22CC7DC623Q29346577-CEDDC5F6-9A09-4332-BE01-ACA2B54248BCQ30492951-CCCD8320-106E-4DA1-BF0E-952260C46F69Q31111628-5213E270-3A5B-44E5-912B-976037CB267DQ33527599-79FC631D-47FB-4216-8D8E-CA54ACE994F3Q33545217-CACCFCB0-4216-48EB-92FF-DF65A539A9E1Q33553819-B5E8F409-418D-41EB-BCDB-54B41F8CBC33Q33558911-4B6A9C3E-5B5C-4B27-8CD7-C4F39F9BF829Q33646539-9F54D147-33F5-4CF9-8AE9-0A49B34C6BDCQ33761020-9C72D8A1-A034-4A51-9157-7AE26E385B35Q33893802-D419F042-448F-474D-9D98-628EDF3B670FQ33927287-C4235F0D-F2BC-46D0-8444-F6BC25E3BD77Q33987494-6412BE97-CCB7-4190-A1A2-6D386052799EQ34044076-4CCA7A1C-CD0D-452C-9950-587B0E4C0719Q34064236-16CC1CC5-EB42-4E45-818E-FEB0B1F777A1Q34070825-04F59DE3-E6F0-44B3-AC72-2E86ABF44882Q34098283-4B412E6B-AE5A-468E-ACC5-4702AA7185AEQ34233237-D8EE45FC-B099-4540-8196-E129E065A3BBQ34303341-48D5127D-7274-4F1A-A057-39A743E2D336Q34413457-D83BC176-0A63-4E35-8BA2-6934B9D9E7E7Q34713892-B09AA1AF-8BB4-4D09-87D0-59463EF08E8FQ34747056-08DDE1BD-411A-498A-B8E3-D593022BBC1DQ34975859-BCB24D53-C30F-4502-AFB8-918EAB62FC31Q35083669-DD106533-70B1-4B57-9148-4BE3564B6D38Q35098229-A70A61B9-F4EA-42B5-8C47-69EC8D9FDF2FQ35139608-D7E4A430-CE81-482A-A807-83AADA31F8B3Q35195790-925A4E10-A116-4332-8903-1BBB953BE1D0Q35222098-7CD8F504-C27D-4B1E-9FE4-016A00594E3BQ35273191-6EF60E37-AEB2-48A1-A0CB-6E14B1414183Q35533270-9932EA29-35D8-4CB0-984A-07F4BB5B6D47
P2860
CovS inactivates CovR and is required for growth under conditions of general stress in Streptococcus pyogenes
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@ast
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@en
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@nl
type
label
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@ast
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@en
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@nl
prefLabel
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@ast
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@en
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@nl
P2860
P1476
CovS inactivates CovR and is r ...... ress in Streptococcus pyogenes
@en
P2093
June R Scott
Tracy L Dalton
P2860
P304
P356
10.1128/JB.186.12.3928-3937.2004
P407
P577
2004-06-01T00:00:00Z