Genetic map of the calicivirus rabbit hemorrhagic disease virus as deduced from in vitro translation studies.
about
Cryo-EM structure of a novel calicivirus, Tulane virusATP binding and ATPase activities associated with recombinant rabbit hemorrhagic disease virus 2C-like polypeptide.Rabbit haemorrhagic disease (RHD) and rabbit haemorrhagic disease virus (RHDV): a reviewA pandemic strain of calicivirus threatens rabbit industries in the Americas.Processing map and essential cleavage sites of the nonstructural polyprotein encoded by ORF1 of the feline calicivirus genomeFeline calicivirus capsid protein expression and capsid assembly in cultured feline cells.Feline calicivirus VP2 is essential for the production of infectious virions.Horizontal transmissible protection against myxomatosis and rabbit hemorrhagic disease by using a recombinant myxoma virus.Norwalk virus open reading frame 3 encodes a minor structural proteinMapping of the feline calicivirus proteinase responsible for autocatalytic processing of the nonstructural polyprotein and identification of a stable proteinase-polymerase precursor protein.Open reading frame 1 of the Norwalk-like virus Camberwell: completion of sequence and expression in mammalian cellsProteolytic processing of sapovirus ORF1 polyprotein.Expression and self-assembly in baculovirus of porcine enteric calicivirus capsids into virus-like particles and their use in an enzyme-linked immunosorbent assay for antibody detection in swine.Structural requirements for the assembly of Norwalk virus-like particlesFeline calicivirus: recovery of wild-type and recombinant viruses after transfection of cRNA or cDNA constructs.Characterization of an enteropathogenic bovine calicivirus representing a potentially new calicivirus genus.Two nonoverlapping domains on the Norwalk virus open reading frame 3 (ORF3) protein are involved in the formation of the phosphorylated 35K protein and in ORF3-capsid protein interactionsTrans activity of the norovirus Camberwell proteinase and cleavage of the N-terminal protein encoded by ORF1.Cleavage map and proteolytic processing of the murine norovirus nonstructural polyprotein in infected cells.The genome-linked protein VPg of the Norwalk virus binds eIF3, suggesting its role in translation initiation complex recruitmentHighly conserved configuration of catalytic amino acid residues among calicivirus-encoded proteases.Characterization of the sequence element directing translation reinitiation in RNA of the calicivirus rabbit hemorrhagic disease virusRNA-Dependent RNA Polymerases of Both Virulent and Benign Rabbit Caliciviruses Induce Striking Rearrangement of Golgi Membranes.Production, Characterization, and Epitope Mapping of Monoclonal Antibodies Against Different Subtypes of Rabbit Hemorrhagic Disease Virus (RHDV).Analysis of genetic variability and phylogenetic analysis of selected Czech and French strains of rabbit haemorrhagic disease virus (RHDV).Cryo-electron microscopy reconstructions of two types of wild rabbit hemorrhagic disease viruses characterized the structural features of LagovirusNorwalk virus N-terminal nonstructural protein is associated with disassembly of the Golgi complex in transfected cells.Functions of the 5' and 3' ends of calicivirus genomes.Molecular characterization of a bovine enteric calicivirus: relationship to the Norwalk-like viruses.Detection of viral proteins after infection of cultured hepatocytes with rabbit hemorrhagic disease virus.Expression of enzymatically active rabbit hemorrhagic disease virus RNA-dependent RNA polymerase in Escherichia coli.Mutation analysis of the GDD sequence motif of a calicivirus RNA-dependent RNA polymerase.Molecular characterization of a porcine enteric calicivirus genetically related to Sapporo-like human caliciviruses.Translation termination reinitiation between open reading frame 1 (ORF1) and ORF2 enables capsid expression in a bovine norovirus without the need for production of viral subgenomic RNA.A Motif in the F Homomorph of Rabbit Haemorrhagic Disease Virus Polymerase Is Important for the Subcellular Localisation of the Protein and Its Ability to Induce Redistribution of Golgi Membranes.The mechanism of an exceptional case of reinitiation after translation of a long ORF reveals why such events do not generally occur in mammalian mRNA translation.Purification and Biochemical Characterisation of Rabbit Calicivirus RNA-Dependent RNA Polymerases and Identification of Non-Nucleoside InhibitorsBioinformatics analysis of rabbit haemorrhagic disease virus genome.Structural and functional characterization of sapovirus RNA-dependent RNA polymerase.Structure and Function of Caliciviral RNA Polymerases.
P2860
Q21090777-CC2BB26C-651B-4E36-95B5-927E321A74A8Q27469603-3B5C1460-6E5C-420A-86BF-919959F2A7CEQ28730482-BE0AFFB4-2423-429E-B3F1-07C267773488Q30364933-DFCED486-B4F5-4F4B-A075-8591C3F025ECQ30453275-FB82F40B-A3E1-4982-9F84-8188E63D3271Q33639951-64D33A29-A684-4315-AA58-B49E6A2642CAQ33707522-305F2E9A-7DC4-4B30-B8F2-A2A3EC6F5ED0Q33792968-09AC7E8B-DAA8-4924-B9C4-C0C21405E0BEQ33808077-1413CBB4-8A5A-4F5A-95CF-C49334CC9179Q33817321-55E02EF3-7135-4206-9403-1FED7CE9C5E4Q33825740-00478101-6734-4F3C-8CBB-609198EF3E77Q33843030-D2BACB51-E6F8-45BE-8304-3BE7F3880547Q33971949-29B93EE6-DC97-4312-A495-5D361B8A8006Q34335587-30BD4750-93E8-46CB-A7A0-E2A04E023149Q34339900-2C4655BF-A5CE-42E6-BF25-5840E68584D1Q34348239-9A5996D5-5EE1-4152-A6F5-97FA929376AAQ34742677-2C10AC62-C3E5-47F9-A0C8-B68CAC21BC0EQ35020660-B7733EDA-B691-47AE-8F15-33E2E76C5907Q35023930-3F073B93-C1F0-4D48-A160-FEFF8A76ED27Q35032545-63BDB8B0-530F-45ED-9D8D-2827172F772EQ35914435-05DABE5C-F4E0-4209-958B-ECD38D8BFF6EQ36098965-D3156B1D-4CF7-4F9B-AE74-48FDC418B9B9Q36245445-05A5C63D-0CB8-4A3D-97A3-18B67C600F43Q36583083-7853A061-2508-4795-8CF2-88752AA2BADCQ36750221-A8C78F80-AFE6-4A5F-A30E-6B4808CC3108Q36922594-DD0C50D5-4AD4-48AD-AA09-7126D7D12549Q37423012-ECF0A00E-E77B-48D5-8FD6-1F3D31B77C19Q38354315-A10C3E9D-7710-42AA-95D5-0D275A976F4FQ39549079-07510BA0-8211-4D3F-B65B-B31E7D3EAC02Q39578776-AEE07A5E-7ADA-46BE-B4E6-19A9CC337B67Q39579125-EA7A7A1F-5ADD-448E-8B33-5C066D4BACB0Q39590614-41A8E030-7E64-4A04-AE31-E540156B2210Q39596693-0A8F424E-AD38-4466-9734-4E00AF5FA936Q39968214-A4AC7D82-2066-4368-ACB3-F7D351C7905DQ40099800-C07F1392-C69F-4B59-801F-53D126E4D135Q40240022-B405B37F-46A9-4F4B-8CB0-07BC4250F14FQ40710102-6F1D0F78-845E-40CC-B923-5BF5A29EFCF6Q41861156-771E398A-BE07-421B-AAD5-326E2E5E36B8Q41975506-C879401F-BBC5-4D51-9782-4C57EF6D9984Q47111270-ACC7841A-8D55-4AFC-A33C-ED9574707730
P2860
Genetic map of the calicivirus rabbit hemorrhagic disease virus as deduced from in vitro translation studies.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Genetic map of the calicivirus ...... in vitro translation studies.
@en
Genetic map of the calicivirus ...... in vitro translation studies.
@nl
type
label
Genetic map of the calicivirus ...... in vitro translation studies.
@en
Genetic map of the calicivirus ...... in vitro translation studies.
@nl
prefLabel
Genetic map of the calicivirus ...... in vitro translation studies.
@en
Genetic map of the calicivirus ...... in vitro translation studies.
@nl
P2093
P2860
P1433
P1476
Genetic map of the calicivirus ...... in vitro translation studies.
@en
P2093
P2860
P304
P407
P577
1996-11-01T00:00:00Z