Mammalian reovirus, a nonfusogenic nonenveloped virus, forms size-selective pores in a model membrane.
about
A New Orbivirus Isolated from Mosquitoes in North-Western Australia Shows Antigenic and Genetic Similarity to Corriparta Virus but Does Not Replicate in Vertebrate CellsPotential for Improving Potency and Specificity of Reovirus Oncolysis with Next-Generation Reovirus VariantsLearning from the Viral Journey: How to Enter Cells and How to Overcome Intracellular Barriers to Reach the NucleusCrystal Structure of the Avian Reovirus Inner Capsid Protein AAtomic model of an infectious rotavirus particle.Determinants of strain-specific differences in efficiency of reovirus entryRequirements for the formation of membrane pores by the reovirus myristoylated micro1N peptide.Spatiotemporal dynamics of adenovirus membrane rupture and endosomal escapeSimilar uptake but different trafficking and escape routes of reovirus virions and infectious subvirion particles imaged in polarized Madin-Darby canine kidney cells.Independent regulation of reovirus membrane penetration and apoptosis by the mu1 phi domainNMR structure of a viral peptide inserted in artificial membranes: a view on the early steps of the birnavirus entry processPhase 1 clinical trial of intratumoral reovirus infusion for the treatment of recurrent malignant gliomas in adultsSV40 late protein VP4 forms toroidal pores to disrupt membranes for viral release.AdenovirusPrimed for Discovery: Atomic-Resolution Cryo-EM Structure of a Reovirus Entry IntermediateElectron microscopic imaging revealed the flexible filamentous structure of the cell attachment protein P2 of Rice dwarf virus located around the icosahedral 5-fold axes.Modeling the step of endosomal escape during cell infection by a nonenveloped virusThermolabilizing pseudoreversions in reovirus outer-capsid protein micro 1 rescue the entry defect conferred by a thermostabilizing mutation.A chaperone-activated nonenveloped virus perforates the physiologically relevant endoplasmic reticulum membrane.From touchdown to transcription: the reovirus cell entry pathwayNPXY motifs in the beta1 integrin cytoplasmic tail are required for functional reovirus entry.A role for molecular chaperone Hsc70 in reovirus outer capsid disassemblyA positive-feedback mechanism promotes reovirus particle conversion to the intermediate associated with membrane penetration.Entry of Bluetongue Virus Capsid Requires the Late Endosome-specific Lipid Lysobisphosphatidic Acid.Structural insights into the coupling of virion assembly and rotavirus replication.Viroporins customize host cells for efficient viral propagation.Virus entry paradigms.Reovirus forms neo-organelles for progeny particle assembly within reorganized cell membranes.Viral weapons of membrane destruction: variable modes of membrane penetration by non-enveloped viruses.Inspired by nature: fundamentals in nanotechnology design to overcome biological barriers.African Swine Fever Virus NP868R Capping Enzyme Promotes Reovirus Rescue during Reverse Genetics by Promoting Reovirus Protein Expression, Virion Assembly, and RNA Incorporation into Infectious Virions.Reovirus μ1 Protein Affects Infectivity by Altering Virus-Receptor Interactions.Lipid Membranes Facilitate Conformational Changes Required for Reovirus Cell Entry.Conformational changes required for reovirus cell entry are sensitive to pH.Amino acids 78 and 79 of Mammalian Orthoreovirus protein µNS are necessary for stress granule localization, core protein λ2 interaction, and de novo virus replication.The μ1 72-96 loop controls conformational transitions during reovirus cell entry.Lipids Cooperate with the Reovirus Membrane Penetration Peptide to Facilitate Particle Uncoating.Optimum length and flexibility of reovirus attachment protein σ1 are required for efficient viral infection.Cell entry-associated conformational changes in reovirus particles are controlled by host protease activity.Lysosomal localization and mechanism of membrane penetration influence nonenveloped virus activation of the NLRP3 inflammasome.
P2860
Q26315439-B6D0B07C-AAC6-4B15-9FFD-DBD41355E33EQ26775033-E2C16303-EDB4-4A39-96B1-2BDEDBC8CD62Q27488284-53B96E49-7900-4BB6-B0C4-7B8ADD73515AQ27652209-36A906F7-8FA6-4C63-8BFC-317FF0657F2FQ27666313-39FB0A3D-3878-4929-B089-94C6931BB762Q30155993-ECBBBDA5-98EF-44A0-B04C-D9A11DE82560Q30157255-295FEA69-6715-4E24-A350-D188DF964883Q30525259-AC37D908-04C9-4F92-92BF-15E661E21EABQ30538733-B96C9443-38CA-4839-BDFC-D67953713C38Q33396212-E49CED1A-9388-4011-AA5A-DD4E295CBD4CQ33552978-D5EFA208-330A-4689-80B1-A8E07D42EFBEQ33586985-2D8B04BB-EE0A-4EA9-B095-D6EB0DDE2B62Q34531269-FE0F5877-17AF-44F1-A872-6EC5005EFB72Q34977219-D8AED48C-94B2-46CC-AB0F-4A8A27060FE2Q35261056-62B99F05-A8B3-462B-A60E-CC96B067AAF6Q35776936-C77805FE-6F16-4854-8EED-9526AD187B8FQ35826748-C6CBD0F7-F134-4916-9CD8-F177BC95EF24Q35914549-EDEEC028-688B-4191-B05E-816C081D6ED8Q36315820-9AE99EA3-6AEF-482A-B3B2-EEE3CDEE64AFQ36467525-5A970E9D-5A11-42C2-A34A-895F61986985Q36498196-7BE62DCA-2A8B-4F8F-9751-E706EC973825Q36769116-49CC340C-504C-4857-BCE9-F9AFEFBEA689Q36802470-50BBCFD6-D35E-4A37-A50F-9E42C5E16728Q37066080-AE32FD9A-7DCF-4792-A8C3-7725692DF794Q37167334-87399C02-CB99-4ADF-BE6D-E38F35754C27Q37202578-5C0F250B-821C-4DAB-84FD-3523CA734B22Q37614299-60CF0138-1921-48C3-81E2-A66212EC277BQ37621639-21736577-CE6A-45BE-A19C-3813B7B000FCQ37909045-C8A25F8D-A2AE-42D5-8F09-F19A54309178Q38074461-BF758946-F972-43AB-8125-77F6B8EAFE89Q38712130-0526DE94-E3B2-4F47-8EE4-7427FCA13B0BQ38743317-8B6FFC6B-643F-47CD-8BF7-8942CE95B689Q38809456-CE532281-B07F-40D9-9BFA-EFB8C4849F14Q38871517-EBBBDC46-BFB6-4F87-A2B3-13FE2B3DC84EQ39046931-F6D2FAA5-6D58-4EFA-AEEE-842DBB21FF10Q39088516-C62AB11F-BDF1-4490-8E45-CFAA228F55A4Q39163586-5C2A0E00-3958-4338-8EBB-AFEE59F9B1D0Q39312059-15A543F5-1978-4189-9AEA-CE1EE2512B39Q39406121-58998D29-9A6A-4B54-B9F9-C9FD1CC691DEQ39593763-89CDF7CE-82CF-413C-86AE-7B05D4864CF3
P2860
Mammalian reovirus, a nonfusogenic nonenveloped virus, forms size-selective pores in a model membrane.
description
2006 nî lūn-bûn
@nan
2006 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Mammalian reovirus, a nonfusog ...... ive pores in a model membrane.
@ast
Mammalian reovirus, a nonfusog ...... ive pores in a model membrane.
@en
type
label
Mammalian reovirus, a nonfusog ...... ive pores in a model membrane.
@ast
Mammalian reovirus, a nonfusog ...... ive pores in a model membrane.
@en
prefLabel
Mammalian reovirus, a nonfusog ...... ive pores in a model membrane.
@ast
Mammalian reovirus, a nonfusog ...... ive pores in a model membrane.
@en
P2860
P356
P1476
Mammalian reovirus, a nonfusog ...... tive pores in a model membrane
@en
P2093
Max L Nibert
Tijana Ivanovic
P2860
P304
16496-16501
P356
10.1073/PNAS.0605835103
P407
P577
2006-10-19T00:00:00Z