A Pseudomonas syringae type III effector suppresses cell wall-based extracellular defense in susceptible Arabidopsis plants
about
Of PAMPs and effectors: the blurred PTI-ETI dichotomyGlucosinolate metabolites required for an Arabidopsis innate immune responseAn Arabidopsis GPI-anchor plasmodesmal neck protein with callose binding activity and potential to regulate cell-to-cell traffickingThe role of NOI-domain containing proteins in plant immune signalingGreasy tactics in the plant-pathogen molecular arms racePlant cell wall dynamics and wall-related susceptibility in plant-pathogen interactionsA Cell Wall-Degrading Esterase of Xanthomonas oryzae Requires a Unique Substrate Recognition Module for Pathogenesis on RiceAre innate immune signaling pathways in plants and animals conserved?A novel pathogenicity gene is required in the rice blast fungus to suppress the basal defenses of the hostDetection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopDTomato TFT1 is required for PAMP-triggered immunity and mutations that prevent T3S effector XopN from binding to TFT1 attenuate Xanthomonas virulenceThe plant actin cytoskeleton responds to signals from microbe-associated molecular patternsSuppression of the microRNA pathway by bacterial effector proteinsA J domain virulence effector of Pseudomonas syringae remodels host chloroplasts and suppresses defensesFlagellin induces innate immunity in nonhost interactions that is suppressed by Pseudomonas syringae effectorsStudy on citrus response to huanglongbing highlights a down-regulation of defense-related proteins in lemon plants upon 'Ca. Liberibacter asiaticus' infectionRole of type III effector secretion during bacterial pathogenesis in another kingdomTranscriptomic analysis reveals distinct resistant response by physcion and chrysophanol against cucumber powdery mildewBacteria establish an aqueous living space in plants crucial for virulence.Non-host defense response in a novel Arabidopsis-Xanthomonas citri subsp. citri pathosystem.Exploitation of eukaryotic ubiquitin signaling pathways by effectors translocated by bacterial type III and type IV secretion systemsThe developmental selector AS1 is an evolutionarily conserved regulator of the plant immune responseCommon and contrasting themes in host cell-targeted effectors from bacterial, fungal, oomycete and nematode plant symbionts described using the Gene OntologyDeletions in the repertoire of Pseudomonas syringae pv. tomato DC3000 type III secretion effector genes reveal functional overlap among effectors.Agroinfiltration reduces ABA levels and suppresses Pseudomonas syringae-elicited salicylic acid production in Nicotiana tabacum.Ubiquitin, hormones and biotic stress in plantsThe hrpK operon of Pseudomonas syringae pv. tomato DC3000 encodes two proteins secreted by the type III (Hrp) protein secretion system: HopB1 and HrpK, a putative type III translocator.Advances in experimental methods for the elucidation of Pseudomonas syringae effector function with a focus on AvrPtoBBacterial elicitation and evasion of plant innate immunity.The inflammasomes: mechanisms of activation and function.Arabidopsis and the plant immune systemPseudomonas syringae type III chaperones ShcO1, ShcS1, and ShcS2 facilitate translocation of their cognate effectors and can substitute for each other in the secretion of HopO1-1.The lectin receptor kinase LecRK-I.9 is a novel Phytophthora resistance component and a potential host target for a RXLR effector.Hrp mutant bacteria as biocontrol agents: toward a sustainable approach in the fight against plant pathogenic bacteria.Identification of Hyaloperonospora arabidopsidis transcript sequences expressed during infection reveals isolate-specific effectorsLocalization of DIR1 at the tissue, cellular and subcellular levels during Systemic Acquired Resistance in Arabidopsis using DIR1:GUS and DIR1:EGFP reporters.Defence responses of Arabidopsis thaliana to infection by Pseudomonas syringae are regulated by the circadian clock.Multiple candidate effectors from the oomycete pathogen Hyaloperonospora arabidopsidis suppress host plant immunity.The Pseudomonas syringae HopPtoV protein is secreted in culture and translocated into plant cells via the type III protein secretion system in a manner dependent on the ShcV type III chaperone.A bacterial acetyltransferase destroys plant microtubule networks and blocks secretion
P2860
Q24605642-09AD32F8-E3A3-41DE-B776-D0345E7D8AA2Q24645375-D162F7F3-4AD7-40B4-B706-4E0331666C6FQ24653032-ABFE335F-FCC9-4BAA-B3C1-63F272FA719EQ26830716-90DC95AA-7903-43BA-8D10-853C58822E2DQ26853211-4E65AA77-25AA-4ABF-8CD0-9573E562BE38Q27004348-C6E9C6A2-14CF-46A3-8ED8-38AEC0AF3135Q27655944-DBB700DE-24BB-475D-878A-FA72CB6A02D7Q28273570-7271B956-9CE9-4973-94AE-E9957BB52D5BQ28475356-2308373F-AE62-46B2-B9C2-0F556C59D449Q28476624-855159D5-84CC-4C87-AAA8-124D0356E79EQ28480430-7FA0E1AA-888B-4A9E-8DF8-549FEB829B98Q28485986-7469DABA-C91D-49DA-AB5F-813C9FD84424Q28492429-A86DECA5-D4B7-43FC-8475-7DBCA9C70A27Q28492431-399D7BF5-8C33-42A4-AF48-E361BF4161C5Q28492432-0070CB50-39A8-4F41-9398-43E00529C123Q28534003-5393E086-3D23-470F-951E-61A64CA2EA6CQ28775800-AAF534F6-16AB-4DC9-9D98-A53CBCEF9A2AQ28833581-212ED5F7-0DA1-46B7-83E8-C86949F36C79Q30830661-8972120E-8C41-41F8-A74D-1A929D093522Q31047823-6B7EA9E7-E6AD-4EC5-BFB3-3EBCFB607133Q33270514-33BA3DF1-DCC0-4F23-A589-527554C99DBFQ33344843-37761C7C-C2A1-4B41-91C0-AD1AFBE6E471Q33417108-FD9124A1-476A-4BA9-8F09-A9C0F188F763Q33432683-7CD8FEA7-6DAD-4E4D-8DD0-80D6B234CE2FQ33529008-3088EE33-7088-42DC-94E8-5A12E6F60AA6Q33576532-4E288AA2-4B2A-4830-8223-BB6EF4F8619EQ33699873-991ABB62-B1A3-43F8-8979-E01B34C9B9C1Q33715182-5E5803E5-D9D0-41A1-98D9-9E628473F239Q33742757-90DA34D3-24B8-4FAB-9082-2343BE3D09F9Q33748704-BE6834C7-A00E-4436-B0EB-B6BD7F54261DQ33809817-C214783A-3FA5-445B-9F56-B6F40035F922Q33855521-5E2764B2-82F9-4482-B77B-040A4681E1D7Q33869057-7C5A6497-8175-4B3F-9296-8EFCD6BDB6EFQ33878605-788D0E6D-C83D-4C61-892A-54D57EF44D96Q33900457-59847C28-8887-4D10-AAB7-DCC97A4D54EEQ34012300-209FD5DE-A527-4E3D-B61F-139A798DC4CDQ34069647-77C18905-3513-4AE2-BB89-22A2DB3DA8C3Q34071380-96EC704A-9443-4C4D-8A0C-3E16CBA77C73Q34149353-29802F64-8D6E-484D-899D-9E2E1274902BQ34154462-453B5696-AD79-4362-AF1F-37B160ED8C56
P2860
A Pseudomonas syringae type III effector suppresses cell wall-based extracellular defense in susceptible Arabidopsis plants
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@ast
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@en
type
label
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@ast
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@en
prefLabel
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@ast
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@en
P2093
P2860
P356
P1476
A Pseudomonas syringae type II ...... susceptible Arabidopsis plants
@en
P2093
Paula Hauck
Roger Thilmony
Sheng Yang He
P2860
P304
P356
10.1073/PNAS.1431173100
P407
P577
2003-06-19T00:00:00Z