The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
about
Rab GTPases and the Autophagy Pathway: Bacterial Targets for a Suitable Biogenesis and Trafficking of Their Own VacuolesContrasting Lifestyles Within the Host CellSpace: A Final Frontier for Vacuolar PathogensStudying Coxiella burnetii Type IV Substrates in the Yeast Saccharomyces cerevisiae: Focus on Subcellular Localization and Protein AggregationThe Type IV Secretion System Effector Protein CirA Stimulates the GTPase Activity of RhoA and Is Required for Virulence in a Mouse Model of Coxiella burnetii InfectionAlterations of the Coxiella burnetii Replicative Vacuole Membrane Integrity and Interplay with the Autophagy Pathway.Essential role for the response regulator PmrA in Coxiella burnetii type 4B secretion and colonization of mammalian host cells.Molecular pathogenesis of the obligate intracellular bacterium Coxiella burnetiiHuman genome-wide RNAi screen for host factors that modulate intracellular Salmonella growth.The Coxiella burnetii cryptic plasmid is enriched in genes encoding type IV secretion system substrates.Tripping on acid: trans-kingdom perspectives on biological acids in immunity and pathogenesis.Coxiella burnetii effector proteins that localize to the parasitophorous vacuole membrane promote intracellular replication.Secrets of a successful pathogen: legionella resistance to progression along the autophagic pathway.Dot/Icm type IVB secretion system requirements for Coxiella burnetii growth in human macrophages.A screen of Coxiella burnetii mutants reveals important roles for Dot/Icm effectors and host autophagy in vacuole biogenesisYersinia pestis Requires Host Rab1b for Survival in Macrophages.Coxiella burnetii alters cyclic AMP-dependent protein kinase signaling during growth in macrophagesVasodilator-Stimulated Phosphoprotein Activity Is Required for Coxiella burnetii Growth in Human Macrophages.Inhibition of inflammasome activation by Coxiella burnetii type IV secretion system effector IcaA.Primary Role for Toll-Like Receptor-Driven Tumor Necrosis Factor Rather than Cytosolic Immune Detection in Restricting Coxiella burnetii Phase II Replication within Mouse MacrophagesIdentification of Coxiella burnetii type IV secretion substrates required for intracellular replication and Coxiella-containing vacuole formationCoxiella burnetii effector CvpB modulates phosphoinositide metabolism for optimal vacuole development.Autophagic clearance of bacterial pathogens: molecular recognition of intracellular microorganismsCoxiella burnetii effector protein subverts clathrin-mediated vesicular trafficking for pathogen vacuole biogenesis.High-Content Imaging Reveals Expansion of the Endosomal Compartment during Coxiella burnetii Parasitophorous Vacuole MaturationFunctional role(s) of phagosomal Rab GTPases.The role of Rab GTPases in the transport of vacuoles containing Legionella pneumophila and Coxiella burnetii.Bacterial subversion of host innate immune pathways.A Rab-centric perspective of bacterial pathogen-occupied vacuoles.Right on Q: genetics begin to unravel Coxiella burnetii host cell interactions.Identification of ElpA, a Coxiella burnetii pathotype-specific Dot/Icm type IV secretion system substrate.Endocytic SNAREs are involved in optimal Coxiella burnetii vacuole development.Quantitative Dextran Trafficking to the Coxiella burnetii Parasitophorous Vacuole.Salmonella type III effector SopB modulates host cell exocytosis.Identification and characterization of arginine finger-like motifs, and endosome-lysosome-basolateral sorting signals within ectopically expressed CirA, a Coxiella burnetii type IV secreted effector protein.LAMP proteins account for the maturation delay during the establishment of the Coxiella burnetii-containing vacuole.Actin polymerization in the endosomal pathway, but not on the Coxiella-containing vacuole, is essential for pathogen growth.
P2860
Q26752552-CAA73644-470A-46BD-BED9-5596B1C4882FQ28078686-B71C42F4-726E-40A6-BC04-988364CC2D0FQ28078953-FB5F41C5-B2B0-4C32-8DF9-20E22EE3A220Q28552952-30931872-7CA2-409D-A2F6-FD58E5138561Q30802919-34DEB890-BEAD-4850-AFEA-82B89936CC58Q30846778-4D8BA64D-4ABF-4F16-9F97-C60FB78728F6Q33570157-BD72F5AC-C744-4015-936C-D0AB339CB296Q34049976-B15A737C-8763-4F41-BA5C-2F2495B02007Q34305317-DA740378-7250-4031-AAFD-27E88DCBF0C5Q34740733-B20D36BE-D998-4DEA-864A-15063FA32556Q34845436-D4D976A6-4CCA-4222-9612-DA6B8CEBAECCQ34955427-A1A6EA03-A084-445B-8393-B1B736C36364Q35079128-F6F972DA-BF5F-477C-A118-01B5A6BE73FBQ35187016-4867A679-7C5E-4FB0-9987-4979F07C4407Q35216620-32381A70-109F-4D49-81EE-0119397B4C8DQ35818586-6CFCDD92-74AE-44F4-8FEA-0E05838871BBQ36018195-26A4C2AA-80B7-4BA4-9BB7-ABF8C7B1BEA6Q36155226-07455631-F5C9-4A6F-BD71-79CDA697115BQ36438042-FB616651-BEFD-4D48-AF98-53E6A1EAF8F2Q36728043-EEB2D3EC-194A-4408-8E67-6B3842BE1F5DQ37124987-F04D9808-0005-408E-ADBC-0D0605C694B4Q37183766-D87B3ACE-169C-4BC7-ADD7-953D843BCB1AQ37205430-D17EA636-7300-4670-A1CD-4BD07F4C43F1Q37377350-9571E0AC-94BA-4E84-AD6B-F862075D52FAQ37670759-446A138C-51ED-4757-B75B-C07E50241078Q37686988-E6FF3FCA-AE12-4B23-BA88-F043FFE1221FQ38061988-453A855A-7B44-4702-A9DC-787EA8ED622CQ38105533-2F89F76D-13CB-4764-AC7B-CE9676ED7646Q38137410-0A8C3442-4F4C-476E-8C23-92DB11403E4DQ38841698-34AB45A8-D8BA-4B7F-AD6C-15A3763F5C32Q38918100-41B56BB6-A00E-49C6-8F3A-BA0D94F68587Q39231584-5152945D-B362-45C9-97CC-BE76977E0075Q40043670-4D72D1D8-1746-4CED-9C37-C74359F1D6CAQ40874629-DBCDB51D-C0D7-4FB9-948D-890667D6EE73Q50054984-0701CA65-6356-4409-9FF4-6177E16EAB40Q51741647-20F44761-A214-4CE0-A27D-E3389B1CE377Q52317660-769A98DB-56C5-42EF-906C-2EA87302C684
P2860
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին 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
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@ast
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@en
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@nl
type
label
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@ast
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@en
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@nl
prefLabel
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@ast
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@en
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@nl
P2093
P2860
P356
P1476
The early secretory pathway contributes to the growth of the Coxiella-replicative niche.
@en
P2093
Emanuel Martín Campoy
Felipe Carlos Martín Zoppino
María Isabel Colombo
P2860
P304
P356
10.1128/IAI.00688-10
P407
P577
2010-10-11T00:00:00Z