Identification of Xylella fastidiosa antivirulence genes: hemagglutinin adhesins contribute a biofilm maturation to X. fastidios and colonization and attenuate virulence.
about
Expression of Xylella fastidiosa fimbrial and afimbrial proteins during biofilm formationCharacterization of regulatory pathways in Xylella fastidiosa: genes and phenotypes controlled by algUAdhesins Involved in Attachment to Abiotic Surfaces by Gram-Negative BacteriaThe trans-kingdom identification of negative regulators of pathogen hypervirulenceContact-Dependent Growth Inhibition (CDI) and CdiB/CdiA Two-Partner Secretion ProteinsXatA, an AT-1 autotransporter important for the virulence of Xylella fastidiosa Temecula1.Autoaggregation of Xylella fastidiosa cells is influenced by type I and type IV pili.Spatiotemporal distribution of different extracellular polymeric substances and filamentation mediate Xylella fastidiosa adhesion and biofilm formationA filamentous hemagglutinin-like protein of Xanthomonas axonopodis pv. citri, the phytopathogen responsible for citrus canker, is involved in bacterial virulence.Novel insights into the genomic basis of citrus canker based on the genome sequences of two strains of Xanthomonas fuscans subsp. aurantifoliiComparative genome analysis provides insights into the evolution and adaptation of Pseudomonas syringae pv. aesculi on Aesculus hippocastanum.Two-Partner Secretion: Combining Efficiency and Simplicity in the Secretion of Large Proteins for Bacteria-Host and Bacteria-Bacteria InteractionsEvolution of an endofungal lifestyle: Deductions from the Burkholderia rhizoxinica genome.Pseudomonas syringae pv. actinidiae draft genomes comparison reveal strain-specific features involved in adaptation and virulence to Actinidia species.Genomic comparison of the endophyte Herbaspirillum seropedicae SmR1 and the phytopathogen Herbaspirillum rubrisubalbicans M1 by suppressive subtractive hybridization and partial genome sequencing.Xylella fastidiosa differentially accumulates mineral elements in biofilm and planktonic cells.Relative susceptibility of Vitis vinifera cultivars to vector-borne Xylella fastidiosa through time.Calcium-Enhanced Twitching Motility in Xylella fastidiosa Is Linked to a Single PilY1 Homolog.Quorum-sensing regulation governs bacterial adhesion, biofilm development, and host colonization in Pantoea stewartii subspecies stewartii.Characterization of the Xylella fastidiosa PD1671 gene encoding degenerate c-di-GMP GGDEF/EAL domains, and its role in the development of Pierce's disease.The Xylella fastidiosa PD1063 protein is secreted in association with outer membrane vesicles.Potential complications when developing gene deletion clones in Xylella fastidiosa.Three New Pierce's Disease Pathogenicity Effectors Identified Using Xylella fastidiosa Biocontrol Strain EB92-1.Calcium increases Xylella fastidiosa surface attachment, biofilm formation, and twitching motilityGlobal expression profile of biofilm resistance to antimicrobial compounds in the plant-pathogenic bacterium Xylella fastidiosa reveals evidence of persister cells.CdiA Effectors from Uropathogenic Escherichia coli Use Heterotrimeric Osmoporins as Receptors to Recognize Target Bacteria.Comparative genomics of Clavibacter michiganensis subspecies, pathogens of important agricultural crops.Agriculturally important microbial biofilms: Present status and future prospects.Identification of bacteria on the surface of clinically infected and non-infected prosthetic hip joints removed during revision arthroplasties by 16S rRNA gene sequencing and by microbiological culture.CdiA promotes receptor-independent intercellular adhesion.A cell-cell signaling sensor is required for virulence and insect transmission of Xylella fastidiosa.Characterization of a diffusible signaling factor from Xylella fastidiosa.The iron stimulon of Xylella fastidiosa includes genes for type IV pilus and colicin V-like bacteriocinsPromiscuous Diffusible Signal Factor Production and Responsiveness of the Xylella fastidiosa Rpf SystemInterbacterial signaling via Burkholderia contact-dependent growth inhibition system proteins.Pseudomonas fluorescens Filamentous Hemagglutinin, an Iron-Regulated Protein, Is an Important Virulence Factor that Modulates Bacterial Pathogenicity.Diffusible signal factor (DSF) synthase RpfF of Xylella fastidiosa is a multifunction protein also required for response to DSF.Host structural carbohydrate induces vector transmission of a bacterial plant pathogen.CdiA Effectors Use Modular Receptor-Binding Domains To Recognize Target Bacteria.The Xylella fastidiosa biocontrol strain EB92-1 genome is very similar and syntenic to Pierce's disease strains.
P2860
Q24619883-2115D8DE-C028-4C50-801E-D9C1DA18AD63Q24679610-C935C217-3CB2-4FB9-86AA-357AC425EF02Q26782609-8CA16F33-3F82-4057-8CF8-C88ABA1DEC59Q26782915-7DDCCEA7-A89F-41A9-A39D-72C4F417E8F9Q28083323-4BD1C756-81B8-4840-B491-B5596D4D2EC8Q30155239-AF2B1B85-FF87-411C-8C78-97724B593695Q30483666-D58A5FA1-8576-404E-88A2-181B755B1A9EQ30641094-5CEE42CE-FAAB-4D6C-9F10-6D80575FB7DDQ33405743-BA88D72C-6139-46FB-8398-643286CF1B4CQ33553931-4BECA5D4-2118-4B51-B65A-4047DE5DE950Q33564240-659E5081-1A01-4B41-B03F-D31D68E3B14BQ33650510-64FF56F9-1CD4-446C-AC0D-2E983B73152AQ33888721-AF97A182-AC1D-414E-AE43-EB20300B7BF1Q34087701-300ED149-64B9-4E23-B75A-71DC1C8FBEBDQ34135917-196D1B51-C587-42A8-B6B1-D0224D738AE2Q34563582-9E4F574E-E0F9-4E3D-A590-38ABFCBC5AD4Q34592613-873E7FD0-869B-4F51-8A43-EEA8648448D0Q34595222-53222BF2-2ECF-4841-BDA1-BAB7681DD013Q34596232-702F7B0C-F198-4974-9E1A-44616F20D0F7Q35219525-1E038F11-5D95-474E-A7B2-34F1F275C210Q35451375-3CDEAD39-3AD4-468D-85B6-4A556BD69F19Q35603640-6DF35013-4F16-4422-BB5E-076D5DA0EEE9Q35719695-8EBC8E97-051D-4DB6-94DA-C2974FF4D49FQ35804754-113CD645-47BF-4BFF-A7FD-14BC3FB13507Q36152790-29A2C234-D0C3-40B6-9EF4-0C28C1BDA149Q36159469-C45F7ABE-FF10-4624-932B-61B3CD30F008Q36314609-F68FCB45-C8F7-4D88-B06A-5FF0BAD4DBF7Q36346199-06338D9C-67A1-42A0-91BC-C82799BB22D5Q36392317-DFDE2157-A047-4AC4-B2F5-E899301E679BQ36412576-F80E6251-E47B-4847-A05F-E269CA00E7C8Q36497479-FDBC3E56-BCE1-4D83-AAB6-9B12386D7E60Q36537970-D2C613F5-6A88-44B6-9BBB-BF2EF27802EFQ36540444-668C247C-FDCC-4813-BE6F-FAD3854834ADQ37120288-622E2827-B9AC-4EBA-8DC3-34E03496C27BQ37126792-1C05E5F3-0B8D-495C-A91B-5E55BB788C9FQ37194900-494C783A-623C-4CD1-A999-C20A22B4B879Q37335969-33DDFE8D-4BD9-4C5D-9CE5-50DD01CABDC0Q37477138-C2CB99EB-BB17-41B8-8247-E24FA8661A69Q37727165-F4C57E8D-9262-4554-8267-C3CB91F0CF7FQ38631340-CF9D292E-EA1C-4E47-8694-34330E249EB9
P2860
Identification of Xylella fastidiosa antivirulence genes: hemagglutinin adhesins contribute a biofilm maturation to X. fastidios and colonization and attenuate virulence.
description
2005 nî lūn-bûn
@nan
2005 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Identification of Xylella fast ...... ation and attenuate virulence.
@ast
Identification of Xylella fast ...... ation and attenuate virulence.
@en
type
label
Identification of Xylella fast ...... ation and attenuate virulence.
@ast
Identification of Xylella fast ...... ation and attenuate virulence.
@en
prefLabel
Identification of Xylella fast ...... ation and attenuate virulence.
@ast
Identification of Xylella fast ...... ation and attenuate virulence.
@en
P356
P1476
Identification of Xylella fast ...... ation and attenuate virulence.
@en
P2093
Bruce C Kirkpatrick
Magalie R Guilhabert
P304
P356
10.1094/MPMI-18-0856
P577
2005-08-01T00:00:00Z