Lipid raft microdomains: a gateway for compartmentalized trafficking of Ebola and Marburg viruses. - Wikidata - wikimedia - TriplyDB

Lipid raft microdomains: a gateway for compartmentalized trafficking of Ebola and Marburg viruses.

Lipid raft microdomains: a gateway for compartmentalized trafficking of Ebola and Marburg viruses.

http://www.wikidata.org/entity/Q36370336

about

Cellular entry of ebola virus involves uptake by a macropinocytosis-like mechanism and subsequent trafficking through early and late endosomes Intracellular events and cell fate in filovirus infection Infectious Lassa virus, but not filoviruses, is restricted by BST-2/tetherin Involvement of vacuolar protein sorting pathway in Ebola virus release independent of TSG101 interaction Ebola virus uses clathrin-mediated endocytosis as an entry pathway.Annexin A2 is involved in the formation of hepatitis C virus replication complex on the lipid raft The Tyro3 receptor kinase Axl enhances macropinocytosis of Zaire ebolavirus Broad-spectrum inhibition of retroviral and filoviral particle release by tetherin Rab9 GTPase is required for replication of human immunodeficiency virus type 1, filoviruses, and measles virus.Overlapping motifs (PTAP and PPEY) within the Ebola virus VP40 protein function independently as late budding domains: involvement of host proteins TSG101 and VPS-4.Interactions between viral nonstructural proteins and host protein hVAP-33 mediate the formation of hepatitis C virus RNA replication complex on lipid raft Virus entry, assembly, budding, and membrane rafts Specific association of glycoprotein B with lipid rafts during herpes simplex virus entry Shedding light on filovirus infection with high-content imaging Mouse models for filovirus infections Ebolavirus is internalized into host cells via macropinocytosis in a viral glycoprotein-dependent manner Targeting of pseudorabies virus structural proteins to axons requires association of the viral Us9 protein with lipid rafts Hepatitis C Virus RNA Replication Occurs on a Detergent-Resistant Membrane That Cofractionates with Caveolin-2 Lipids and membrane microdomains in HIV-1 replication Assembly of Arenavirus Envelope Glycoprotein GPC in Detergent-Soluble Membrane Microdomains Marburg Virus Evades Interferon Responses by a Mechanism Distinct from Ebola Virus Structure of the Ebola fusion peptide in a membrane-mimetic environment and the interaction with lipid rafts Cholesterol promotes hemifusion and pore widening in membrane fusion induced by influenza hemagglutinin.Cell adhesion promotes Ebola virus envelope glycoprotein-mediated binding and infection.Transbilayer effects of raft-like lipid domains in asymmetric planar bilayers measured by single molecule tracking The cytoplasmic tail of the human respiratory syncytial virus F protein plays critical roles in cellular localization of the F protein and infectious progeny production.Visualizing lipid raft dynamics and early signaling events during antigen receptor-mediated B-lymphocyte activation.Structure of dehydroergosterol monohydrate and interaction with sterol carrier protein-2.In vivo oligomerization and raft localization of Ebola virus protein VP40 during vesicular budding.Vesicular stomatitis virus-based vaccines protect nonhuman primates against Bundibugyo ebolavirus Role of cholesterol in human immunodeficiency virus type 1 envelope protein-mediated fusion with host cells Toll-like receptor agonist augments virus-like particle-mediated protection from Ebola virus with transient immune activation.Assembly and budding of Ebolavirus.Mapping of the VP40-binding regions of the nucleoprotein of Ebola virus.A filovirus-unique region of Ebola virus nucleoprotein confers aberrant migration and mediates its incorporation into virions.An enzymatic virus-like particle assay for sensitive detection of virus entry PPARgamma and LXR signaling inhibit dendritic cell-mediated HIV-1 capture and trans-infection Identification of essential filovirion-associated host factors by serial proteomic analysis and RNAi screen.Vaccinia virus penetration requires cholesterol and results in specific viral envelope proteins associated with lipid rafts VP40 octamers are essential for Ebola virus replication.

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Lipid raft microdomains: a gateway for compartmentalized trafficking of Ebola and Marburg viruses.

http://www.wikidata.org/entity/Q36370336

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2002 nî lūn-bûn

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2002年学术文章

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2002年学术文章

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2002年學術文章

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2002年學術文章

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2002年學術文章

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Lipid raft microdomains: a gat ...... of Ebola and Marburg viruses.

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Lipid raft microdomains: a gat ...... of Ebola and Marburg viruses.

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Lipid raft microdomains: a gat ...... of Ebola and Marburg viruses.

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Journal of Experimental Medicine

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Lipid raft microdomains: a gat ...... of Ebola and Marburg viruses.

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Alan Schmaljohn

http://www.w3.org/2001/XMLSchema#string

Amy B Will

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Catharine M Bosio

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Elizabeth Wiegand

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Gordon Ruthel

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M Javad Aman

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Michael Hevey

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P2860

Crystal structure of the matrix protein VP40 from Ebola virus

Functional rafts in cell membranes

Lipid rafts and signal transduction

Development of a preventive vaccine for Ebola virus infection in primates

LAT palmitoylation: its essential role in membrane microdomain targeting and tyrosine phosphorylation during T cell activation

Functions of lipid rafts in biological membranes

Structure and function of sphingolipid- and cholesterol-rich membrane rafts

Lipid domain structure of the plasma membrane revealed by patching of membrane components

A requirement for lipid rafts in B cell receptor induced Ca(2+) flux.

Folate receptor-alpha is a cofactor for cellular entry by Marburg and Ebola viruses.

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593-602

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10.1084/JEM.20011500

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5

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195

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Thomas W Geisbert

Connie S Schmaljohn

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2002-03-01T00:00:00Z

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274896876

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2193767

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