Spa32 regulates a switch in substrate specificity of the type III secreton of Shigella flexneri from needle components to Ipa proteins.
about
Bioinformatics analysis of the locus for enterocyte effacement provides novel insights into type-III secretionBacterial iron-sulfur cluster sensors in mammalian pathogensBehind the lines-actions of bacterial type III effector proteins in plant cellsThe Structure and Function of Type III Secretion SystemsType Three Secretion System in Attaching and Effacing PathogensProtein export according to schedule: architecture, assembly, and regulation of type III secretion systems from plant- and animal-pathogenic bacteria.Functional characterization of the type III secretion substrate specificity switch protein HpaC from Xanthomonas campestris pv. vesicatoria.The Structure of a Type 3 Secretion System (T3SS) Ruler Protein Suggests a Molecular Mechanism for Needle Length SensingYscU recognizes translocators as export substrates of the Yersinia injectisomeThe locus of enterocyte effacement type III secretion specificity switch: the devil's in the data for a common mechanism.Small-molecule type III secretion system inhibitors block assembly of the Shigella type III secreton.Length control of the injectisome needle requires only one molecule of Yop secretion protein P (YscP).RtsA coordinately regulates DsbA and the Salmonella pathogenicity island 1 type III secretion system.Genetically engineered frameshifted YopN-TyeA chimeras influence type III secretion system function in Yersinia pseudotuberculosis.Shigella type III secretion protein MxiI is recognized by Naip2 to induce Nlrc4 inflammasome activation independently of PkcĪ“.An infrequent molecular ruler controls flagellar hook length in Salmonella enterica.Process of protein transport by the type III secretion systemMxiA, MxiC and IpaD Regulate Substrate Selection and Secretion Mode in the T3SS of Shigella flexneriBioinformatics, genomics and evolution of non-flagellar type-III secretion systems: a Darwinian perspective.The Salmonella type III secretion system inner rod protein PrgJ is partially folded.Role of EscP (Orf16) in injectisome biogenesis and regulation of type III protein secretion in enteropathogenic Escherichia coliComparison of two major forms of the Shigella virulence plasmid pINV: positive selection is a major force driving the divergenceMolecular pathogenesis of Shigella spp.: controlling host cell signaling, invasion, and death by type III secretion.The FliK protein and flagellar hook-length control.Type III chaperones & Co in bacterial plant pathogens: a set of specialized bodyguards mediating effector delivery.Timing is everything: the regulation of type III secretion.Functional insights into the Shigella type III needle tip IpaD in secretion control and cell contact.YscP and YscU switch the substrate specificity of the Yersinia type III secretion system by regulating export of the inner rod protein YscI.The extreme C terminus of Shigella flexneri IpaB is required for regulation of type III secretion, needle tip composition, and binding.Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR.The Ruler Protein EscP of the Enteropathogenic Escherichia coli Type III Secretion System Is Involved in Calcium Sensing and Secretion Hierarchy Regulation by Interacting with the Gatekeeper Protein SepL.Interplay between predicted inner-rod and gatekeeper in controlling substrate specificity of the type III secretion system.A dominant-negative needle mutant blocks type III secretion of early but not late substrates in YersiniaSecretion of YscP from Yersinia enterocolitica is essential to control the length of the injectisome needle but not to change the type III secretion substrate specificity.Needle length control and the secretion substrate specificity switch are only loosely coupled in the type III secretion apparatus of ShigellaDomains of the Shigella flexneri type III secretion system IpaB protein involved in secretion regulation.Shigella IpaD has a dual role: signal transduction from the type III secretion system needle tip and intracellular secretion regulation.The Shigella T3SS needle transmits a signal for MxiC release, which controls secretion of effectors.The PscE-PscF-PscG complex controls type III secretion needle biogenesis in Pseudomonas aeruginosa.Shigella Spa33 is an essential C-ring component of type III secretion machinery.
P2860
Q24791468-39183176-823A-4FA4-A4F0-A36D2CF207B4Q27025305-A44778EA-DC16-4081-8B31-C5E95C26AAF0Q28068755-C05988E3-C5D8-4D15-B173-41D972DD5299Q28073674-7350ACC5-D8F2-4821-8AAF-F2F4FDE09CFFQ28074332-C8B280D8-768C-4B20-94E3-6FF472BC3D31Q30318075-86423F41-5A7C-4ED3-A34A-672514A95F46Q30318400-3CE12ADF-457B-43E1-9B9F-350AD4C48121Q30381622-70292FE7-6D79-408C-920D-92BCE961FCE6Q30479614-E6F323BF-BAC9-4AB8-B976-4CACDA170F63Q30559322-F3C441CE-31D5-4D64-8701-2A59A6718087Q30853039-9CECDF06-A520-44A7-8EC3-2993F7FBE18DQ34068346-7524F1E2-0933-4367-84A7-1DC410815441Q34555106-96024A0A-610C-4014-86F3-7441A5412A95Q35009783-79F094A0-7A1D-41EB-AEAA-A34ED227C4E9Q35091245-00FCBA5A-40D5-449F-B152-1ABF704CAA1AQ35177202-12DA7DD5-E9F9-4DC7-8691-F570EF5443C2Q35980175-23B7E032-AEDE-4CE5-B6D2-962D871AA2A1Q36015449-B1A08B26-7A18-4ED3-9EAF-E445F5CFB648Q36088671-896E8F2D-1E46-48C2-95B2-6EC918B746C4Q36127196-A3B21BBF-9992-4271-9591-357122281DA7Q36363508-2526E795-53F3-47A3-A9CF-96C383E91956Q36376664-36DA729E-403E-4181-8E02-3AA943741B72Q36422508-BE96797B-9E1B-4C6D-9DAC-58307A900D2CQ36800718-F3857B33-7C80-4C65-B824-D8FD9849830BQ37334213-33DCAA7F-2C3E-487D-B2EE-69A244E6911FQ37665331-B80C2769-BCF9-4223-9D10-8374EF6676BAQ39192014-760078DA-B220-41A3-8EFD-73A62F9018AEQ39758533-5F0ED62A-5F82-4412-A675-120B64C92A25Q39896038-337C9AF5-D8D4-43B1-99FD-0C99072F07C7Q40463683-F1ACF7B7-DE9A-4D43-93B3-6FECDD84C750Q40654674-E5EC2258-C58F-44BA-8337-4DC7877E48E2Q41402188-03B1F668-23E4-49F0-BBD6-E1909482D282Q41435019-1D5993AB-4CCC-4751-8A51-15D98C6EF4EAQ41457272-6380DDA3-6C28-4D1A-A9E3-4E34F48DD3ACQ41823389-421FD5AC-80CC-4033-80B0-9244BE235711Q42048473-EF560FB5-2788-4143-BE77-6348CFDFE6BEQ42128393-68D870B6-16A0-492F-B949-42AC86C0D227Q42168584-E14D3B1E-21FC-46D9-8E87-F2CBAF0B75EAQ42482994-BFC76FE1-5A29-4CC3-99B7-141FE6D428B8Q42485719-647F072A-24B4-48A0-93C9-EFDA25D0D7ED
P2860
Spa32 regulates a switch in substrate specificity of the type III secreton of Shigella flexneri from needle components to Ipa proteins.
description
2002 nĆ® lÅ«n-bĆ»n
@nan
2002 Õ©ÕøÖÕ”ÕÆÕ”Õ¶Õ« Õ
ÕøÖÕ¬Õ«Õ½Õ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕøÖÕ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ ÕµÖ
Õ¤ÕøÖÕ”Õ®
@hyw
2002 Õ©Õ¾Õ”ÕÆÕ”Õ¶Õ« Õ°ÕøÖÕ¬Õ«Õ½Õ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕ¾Õ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ Õ°ÕøÕ¤Õ¾Õ”Õ®
@hy
2002幓ć®č«ę
@ja
2002幓č«ę
@yue
2002幓č«ę
@zh-hant
2002幓č«ę
@zh-hk
2002幓č«ę
@zh-mo
2002幓č«ę
@zh-tw
2002幓č®ŗę
@wuu
name
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@ast
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@en
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@nl
type
label
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@ast
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@en
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@nl
prefLabel
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@ast
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@en
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@nl
P2093
P2860
P1476
Spa32 regulates a switch in su ...... le components to Ipa proteins.
@en
P2093
AbdelmounaaĆÆm Allaoui
Abderrahman Hachani
Ariel Blocker
Juana Magdalena
Mustapha Chamekh
Noureddine Jouihri
Pierre Gounon
P2860
P304
P356
10.1128/JB.184.13.3433-3441.2002
P407
P577
2002-07-01T00:00:00Z