Major histocompatibility complex class I molecules mediate association of SV40 with caveolae.
about
Retrograde transport pathways utilised by viruses and protein toxinsMolecular biology, epidemiology, and pathogenesis of progressive multifocal leukoencephalopathy, the JC virus-induced demyelinating disease of the human brainAssembly of endocytic machinery around individual influenza viruses during viral entry.Virus entry, assembly, budding, and membrane raftsThe caveolae-mediated sv40 entry pathway bypasses the golgi complex en route to the endoplasmic reticulum.Multiscale perspectives of virus entry via endocytosisLipids and membrane microdomains in HIV-1 replicationStructural basis of GM1 ganglioside recognition by simian virus 40Co-option of endocytic functions of cellular caveolae by pathogensJC virus enters human glial cells by clathrin-dependent receptor-mediated endocytosis.Scanning surface confocal microscopy for simultaneous topographical and fluorescence imaging: application to single virus-like particle entry into a cell.Role of endosomes in simian virus 40 entry and infection.Caveolae are highly immobile plasma membrane microdomains, which are not involved in constitutive endocytic traffickingVirus movements on the plasma membrane support infection and transmission between cellsInternalization of hydroxyapatite nanoparticles in liver cancer cells.Manipulation of Host Cholesterol by Obligate Intracellular Bacteria.Clathrin-independent pathways of endocytosis.Endocytosis and intracellular transport of ricin: recent discoveries.Simian virus 40 infection via MHC class I molecules and caveolae.Exploitation of major histocompatibility complex class I molecules and caveolae by simian virus 40.Chemokine receptor trafficking and viral replication.Gene therapy using SV40-derived vectors: what does the future hold?Infection of glial cells by the human polyomavirus JC is mediated by an N-linked glycoprotein containing terminal alpha(2-6)-linked sialic acidsRole for beta2-microglobulin in echovirus infection of rhabdomyosarcoma cellsViral cell entry induced by cross-linked decay-accelerating factorInhibitors of COP-mediated transport and cholera toxin action inhibit simian virus 40 infection.Measuring the strength of interaction between the Ebola fusion peptide and lipid rafts: implications for membrane fusion and virus infection.Early steps of polyomavirus entry into cellsEndocytosis of viruses and bacteria.Viral entry, lipid rafts and caveosomes.Initial steps of Shigella infection depend on the cholesterol/sphingolipid raft-mediated CD44-IpaB interactionDifferent rotavirus strains enter MA104 cells through different endocytic pathways: the role of clathrin-mediated endocytosis.Endocytosis in viral replication.Gangliosides are receptors for murine polyoma virus and SV40Caveolar endocytosis of simian virus 40 is followed by brefeldin A-sensitive transport to the endoplasmic reticulum, where the virus disassemblesContrasting roles of endosomal pH and the cytoskeleton in infection of human glial cells by JC virus and simian virus 40Cell penetration and trafficking of polyomavirusThe export of major histocompatibility complex class I molecules from the endoplasmic reticulum of rat brown adipose cells is acutely stimulated by insulinRole of recycling endosomes and lysosomes in dynein-dependent entry of canine parvovirus.Microbial entry through caveolae: variations on a theme.
P2860
Q21245139-B0ABC967-9757-451B-9BB4-4AE77F68C63AQ24619923-2C035D6F-A371-462B-8B1D-E7EEE7EB009EQ24669815-BC23AB7E-49A1-4810-B590-85B9F79D1C67Q24673161-3F6DC74D-A223-4A30-B63E-DCF07460A83BQ24795950-D42FAEF9-901B-4799-AC42-A47A5265F264Q27026314-3211488D-1C1E-451E-BD31-BE00B3D7746FQ27489393-F7D9C9C8-FE95-46B6-9975-1547BFEE45FAQ27650118-1F394FB5-8AFD-4780-9A99-EF3CB0259272Q28347332-0F18426B-3862-43CD-AC16-055B1D407F4FQ30326112-630B350E-B698-4138-9B0D-11594CBEC0E9Q30476900-239D1D0D-2293-4104-85C1-1CCB9A6E9CDDQ30501717-6AFDFA27-4F2C-47C3-ACDA-AE6C19E247F9Q30857066-E8466045-CD33-4B2A-8D08-C2A34A29C178Q30944807-E12F4FEA-18AA-4CA1-BA29-5EE2A86FE0D2Q33294291-27BF0E8B-092B-427B-9311-AAD8520F7396Q33639053-B7B456E5-5A71-4D35-A995-B78BA10A866FQ33653693-C89060B0-20F3-44B0-929E-DA4693677568Q33665613-C014E769-19AA-4116-9000-1062D3D79FCBQ33683308-C3F2A989-8FC1-4382-B057-5EFC91B0F6B8Q33683316-B6730E42-D900-45B4-84E4-882283B89847Q33683322-41653C5D-70F9-4B29-9621-BB0C334E99CAQ33755140-A94977C8-104C-43BA-81B1-9D3B66147253Q33783937-9CE4C1D1-27A3-49A8-A267-EA30D6E7FFB6Q33784850-6E9BBB67-D746-4993-B0C5-093E1153674DQ33785545-57B36B4D-58BC-41AE-BF6F-9B0BE0FF5571Q33787900-00A0A5C7-CA79-4DD0-87FD-D2A787DABD32Q33797915-937F75C3-3817-4DEC-AD42-66B466603302Q33874327-09AE4BB8-D645-4450-96B9-96AA121FB37FQ33938568-CB5A5A62-58D8-421A-A5E2-119ED0247A43Q33990483-310881E8-B14D-41F3-8AF3-45624BDA8BE3Q34091098-94BF80A1-57AC-4613-A846-E8DAC8AA495AQ34120236-70909809-74FE-4D95-A5C1-34298CDDA6CFQ34156695-78475F31-180B-4996-85E9-DA0925E0D977Q34225546-5F25F478-E872-45AA-AF5E-C5134C0B7689Q34338034-46E14B28-75C7-4181-9068-9540E4904D5FQ34465628-1F2C8000-9D4B-445B-AFE0-1F831202A1C9Q34471665-9A805309-CC08-49BB-9F5A-8E799D6C4F70Q34670293-E3D69CA7-BDB3-44E2-B215-F19D290890DFQ34999049-A03837BA-1C25-49FA-920A-1B34214F79A8Q35015754-CCB79352-3BF6-43F6-BF7B-72143AA7A0CB
P2860
Major histocompatibility complex class I molecules mediate association of SV40 with caveolae.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Major histocompatibility compl ...... ciation of SV40 with caveolae.
@en
type
label
Major histocompatibility compl ...... ciation of SV40 with caveolae.
@en
prefLabel
Major histocompatibility compl ...... ciation of SV40 with caveolae.
@en
P2093
P2860
P356
P1476
Major histocompatibility compl ...... ciation of SV40 with caveolae.
@en
P2093
P2860
P356
10.1091/MBC.8.1.47
P577
1997-01-01T00:00:00Z