Dynamin- and lipid raft-dependent entry of decay-accelerating factor (DAF)-binding and non-DAF-binding coxsackieviruses into nonpolarized cells
about
Mechanisms of viral entry: sneaking in the front doorInfectious Entry Pathway of Enterovirus B SpeciesMechanisms of Beta Cell Dysfunction Associated With Viral InfectionThe actin cytoskeleton as a barrier to virus infection of polarized epithelial cellsADAP2 Is an Interferon Stimulated Gene That Restricts RNA Virus EntryHeLa cell heterogeneity and coxsackievirus B3 cytopathic effect: Implications for inter-laboratory reproducibility of resultsEchovirus 1 entry into polarized Caco-2 cells depends on dynamin, cholesterol, and cellular factors associated with macropinocytosisEchovirus 7 entry into polarized intestinal epithelial cells requires clathrin and Rab7.c-Cbl-mediated selective virus-receptor translocations into lipid rafts regulate productive Kaposi's sarcoma-associated herpesvirus infection in endothelial cells.Clathrin-independent endocytosis: a cargo-centric viewPathogenesis of human diffusely adhering Escherichia coli expressing Afa/Dr adhesins (Afa/Dr DAEC): current insights and future challengesType B coxsackieviruses and their interactions with the innate and adaptive immune systems.Enterovirus infections of the central nervous system.Variations of coxsackievirus B3 capsid primary structure, ligands, and stability are selected for in a coxsackievirus and adenovirus receptor-limited environmentThe major cellular sterol regulatory pathway is required for Andes virus infectionCaveolin-1-mediated Japanese encephalitis virus entry requires a two-step regulation of actin reorganization.Recent progress in understanding coxsackievirus replication, dissemination, and pathogenesis.Reovirus uses multiple endocytic pathways for cell entry.Japanese encephalitis virus enters rat neuroblastoma cells via a pH-dependent, dynamin and caveola-mediated endocytosis pathway.The spike protein VP4 defines the endocytic pathway used by rotavirus to enter MA104 cells.A Three-Dimensional Cell Culture Model To Study Enterovirus Infection of Polarized Intestinal Epithelial Cells.Lipid raft- and SRC family kinase-dependent entry of coxsackievirus B into human placental trophoblasts.Coxsackievirus B3 Directly Induced Th17 Cell Differentiation by Inhibiting Nup98 Expression in Patients with Acute Viral Myocarditis.Coxsackievirus A9 infects cells via nonacidic multivesicular bodiesUnraveling the role of membrane microdomains during microbial infections.Endocytosis of murine norovirus 1 into murine macrophages is dependent on dynamin II and cholesterol.Function of membrane rafts in viral lifecycles and host cellular responseCoxsackievirus B4 Can Infect Human Peripheral Blood-Derived MacrophagesDifferential expression of coxsackievirus and adenovirus receptor on alveolar epithelial cells between fetal and adult mice determines their different susceptibility to coxsackievirus B infection.Arrayed CRISPR screen with image-based assay reliably uncovers host genes required for coxsackievirus infection.Cellular N-myristoyltransferases play a crucial picornavirus genus-specific role in viral assembly, virion maturation, and infectivityPorcine sapovirus Cowden strain enters LLC-PK cells via clathrin- and cholesterol-dependent endocytosis with the requirement of dynamin IIModeling Host-Pathogen Interactions in the Context of the Microenvironment: Three-Dimensional Cell Culture Comes of Age
P2860
Q22252690-0AD6425F-D3A8-4E36-9532-FD38D3625B13Q26774364-CEDC5694-64AB-4568-82F2-1D38C0AA5FF2Q26797519-8E4ED76B-DA1E-4660-92E4-AD6913BB582FQ27015995-9575ABED-D5E7-4B96-9593-87F5A1E47655Q27317296-138D2585-6090-4AB0-B485-D544D0AA6F3FQ30000139-C4A2801E-AEFA-47B9-B815-D0F5E2BCD455Q30415084-9CC4535C-046F-47C8-A516-4E5BCD13FACAQ30427371-72948385-3670-4ECA-A084-3FE4AB4E86B9Q34027122-68CEC7E9-D6B1-44B7-9DB0-970C701227C2Q34149489-89A60249-5969-4E87-99B8-5A2585DBC986Q34297628-8E891ADA-F919-486C-95EB-94BA0EEE95AAQ34608956-555A638A-DFC0-4A9A-8B39-F9A6EFE8F148Q34697319-4E74A443-628B-4C83-B213-895EDA5DD089Q34742368-F8982415-ED79-4746-8F67-B10E4B0AD765Q35091225-1F75F336-FC32-4925-82AF-76EBAACC5A59Q35960871-14599BDC-9AB8-4CCD-BC6B-199DAC6E7F38Q36052773-B3C10C69-1603-4E91-A542-032C4FF0F81DQ36397535-ACD40410-B2DB-4DBB-806A-2A469F85858AQ36414328-F2EB06F4-A942-4B1C-9413-95975DD4CA57Q36559900-7DFD7A9D-74CE-4A88-A8B3-CD925B45CEF8Q36891349-DCF3274D-D3F0-4466-AC13-F1097350E52BQ37036674-18E04149-D810-4C52-8DAD-98C6C445A117Q37486647-F4826F54-E51B-4DA9-82C7-A8E25DFE7B49Q37713989-7735F277-09DA-42CF-95CF-972372587989Q39169754-922E276C-481D-40C3-AAD3-168C3B789009Q39717486-4F50068D-7036-4976-B2E8-6A85D4313379Q39724559-7CC3FF77-DE29-4ABB-96C4-ADBBE5B668DAQ40893867-5F181F61-90FF-4C32-9ABF-FB50DAB2DD3DQ43915607-FDA09BFF-F82A-4001-8577-48A74F8457D3Q54224443-44A4D0F9-22B0-49FC-A48D-C4CE1719F3FAQ57008195-B6D39AF5-1F9A-4147-B968-B569A272F84FQ58463705-6E4C4BC6-CB3E-4C19-ACD1-CA4DDE224BD2Q59133328-87C3D59F-B243-44C8-A4EC-29ED6F92F8D6
P2860
Dynamin- and lipid raft-dependent entry of decay-accelerating factor (DAF)-binding and non-DAF-binding coxsackieviruses into nonpolarized cells
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 26 August 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Dynamin- and lipid raft-depend ...... iruses into nonpolarized cells
@en
Dynamin- and lipid raft-dependent entry of decay-accelerating factor
@nl
type
label
Dynamin- and lipid raft-depend ...... iruses into nonpolarized cells
@en
Dynamin- and lipid raft-dependent entry of decay-accelerating factor
@nl
prefLabel
Dynamin- and lipid raft-depend ...... iruses into nonpolarized cells
@en
Dynamin- and lipid raft-dependent entry of decay-accelerating factor
@nl
P2860
P356
P1433
P1476
Dynamin- and lipid raft-depend ...... iruses into nonpolarized cells
@en
P2093
Jeffrey M Bergelson
Kunal P Patel
P2860
P304
11064-11077
P356
10.1128/JVI.01016-09
P407
P577
2009-08-26T00:00:00Z