Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
about
Evolution and taxonomy of positive-strand RNA viruses: implications of comparative analysis of amino acid sequencesThe arginine-1493 residue in QRRGRTGR1493G motif IV of the hepatitis C virus NS3 helicase domain is essential for NS3 protein methylation by the protein arginine methyltransferase 1.Viral Mimicry to Usurp Ubiquitin and SUMO Host PathwaysInactivation of the RNase activity of glycoprotein E(rns) of classical swine fever virus results in a cytopathogenic virusBovine viral diarrhea virus strain Oregon: a novel mechanism for processing of NS2-3 based on point mutationsInsertion of a sequence encoding light chain 3 of microtubule-associated proteins 1A and 1B in a pestivirus genome: connection with virus cytopathogenicity and induction of lethal disease in cattle.Ribosomal S27a coding sequences upstream of ubiquitin coding sequences in the genome of a pestivirus.Correlation between point mutations in NS2 and the viability and cytopathogenicity of Bovine viral diarrhea virus strain Oregon analyzed with an infectious cDNA cloneNonhomologous RNA recombination in bovine viral diarrhea virus: molecular characterization of a variety of subgenomic RNAs isolated during an outbreak of fatal mucosal diseaseA Cellular J-Domain Protein Modulates Polyprotein Processing and Cytopathogenicity of a PestivirusDetection and characterization of genetic recombination in cytopathic type 2 bovine viral diarrhea virusesRecovery of Virulent and RNase-Negative Attenuated Type 2 Bovine Viral Diarrhea Viruses from Infectious cDNA ClonesBovine viral diarrhea virus: biotypes and diseaseCytopathogenicity of classical swine fever virus caused by defective interfering particlesGenesis of Sindbis virus by in vivo recombination of nonreplicative RNA precursorsInfectious RNA transcribed from an engineered full-length cDNA template of the genome of a pestivirusClassical swine fever virus: recovery of infectious viruses from cDNA constructs and generation of recombinant cytopathogenic defective interfering particlesA Distinct Group of Hepacivirus/Pestivirus-Like Internal Ribosomal Entry Sites in Members of Diverse Picornavirus Genera: Evidence for Modular Exchange of Functional Noncoding RNA Elements by RecombinationCytopathogenicity of border disease virus is correlated with integration of cellular sequences into the viral genomeNonhomologous RNA-RNA recombination events at the 3' nontranslated region of the Sindbis virus genome: hot spots and utilization of nonviral sequencesCytopathogenicity of a pestivirus correlates with a 27-nucleotide insertionBovine viral diarrhea virus: characterization of a cytopathogenic defective interfering particle with two internal deletionsRecovery of cytopathogenic and noncytopathogenic bovine viral diarrhea viruses from cDNA constructsAuthentic and chimeric full-length genomic cDNA clones of bovine viral diarrhea virus that yield infectious transcriptsMacrophages infected with cytopathic bovine viral diarrhea virus release a factor(s) capable of priming uninfected macrophages for activation-induced apoptosisSerine protease of pestiviruses: determination of cleavage sitesPathogenesis of mucosal disease: a cytopathogenic pestivirus generated by an internal deletionCharacterization of the hepatitis C virus-encoded serine proteinase: determination of proteinase-dependent polyprotein cleavage sitesRecombination between Sindbis virus RNAsCytopathogenicity of Classical Swine Fever Virus Correlates with Attenuation in the Natural HostA Single Point Mutation in Nonstructural Protein NS2 of Bovine Viral Diarrhea Virus Results in Temperature-Sensitive Attenuation of Viral CytopathogenicityA trans-Complementing Recombination Trap Demonstrates a Low Propensity of Flaviviruses for Intermolecular RecombinationStability of yellow fever virus under recombinatory pressure as compared with chikungunya virusA second hepatitis C virus-encoded proteinaseMutations in the N terminus of the brome mosaic virus polymerase affect genetic RNA-RNA recombination.Ubiquitin as a degradation signalPestivirus virion morphogenesis in the absence of uncleaved nonstructural protein 2-3Adaptation of a genotype 3 hepatitis E virus to efficient growth in cell culture depends on an inserted human gene segment acquired by recombination.RNA recombination in animal and plant viruses.The Ubp6 family of deubiquitinating enzymes contains a ubiquitin-like domain: SUb.
P2860
Q22064551-C9884D8A-5C58-401F-AF9F-6E8DCBDF3C0FQ24529559-4531C829-DFA5-4AD1-BC53-AC997E2DB9B3Q26783655-95A8630A-2085-46DA-A106-E3F2C6B2EFC9Q27469514-8AA987B2-33AB-406C-A80A-AF174F37B99BQ27469546-3F0DF749-94F4-4B7A-AFA0-AE51E2E5FE6EQ27469548-45883112-A5D6-4D00-A222-05C86B2E064BQ27469578-055553A5-25FE-4C1C-9339-8B654D7DD921Q27469617-30A6C2D5-177A-4F43-AB23-D533057D185EQ27469714-69FBCCF0-CCEC-4264-A433-BC1F5DA325FCQ27469858-70254AB6-D317-4B32-AFF5-6FBC60377AB4Q27470011-D9CD8034-3C27-4738-A285-03142E30731DQ27473513-3D2AB75E-5C8A-4F5E-BB3E-9420D647CBAEQ27477739-524713DC-9C54-454A-8101-53FE4B4D5661Q27478476-2355E819-FF85-426E-BAF6-AF7CDD5DD718Q27480315-052C263B-6B7B-4EBE-8EBB-1A1D9654F487Q27480328-E2ACC382-9F5D-473C-AC9B-DCC40C3E7BB8Q27480335-B970EDDB-9783-417D-8754-A21DC036BBB3Q27480365-434A4797-AF8B-42D0-9D8A-1531BA8AD3C1Q27480378-26AFF125-7D1E-45D2-BB16-CBDDC41C75A8Q27480409-58CE774E-B3C3-490C-BAE3-08D4E5BB22A0Q27480751-3522D950-028B-4655-944A-BAB96375137BQ27480755-6DF13D7F-D1B0-4CD4-ABFE-1769A22C48C4Q27480759-1E3BB018-BE44-44D7-8589-D48B430AE42CQ27480772-421F8C4D-0CFD-4371-B163-5C88947B173BQ27480812-FAEF11E7-230A-4E5D-BEE7-1376EB6D035BQ27480838-31C0963D-439B-475B-AB30-088EC0401C6CQ27485982-E66E7603-DEC8-4286-9AA3-39C957FEE525Q27486027-00BD4650-6E98-4A6D-BC17-1064B66BD8CDQ27486538-0F02DA74-4AF7-40C3-8F3C-A405E20FD155Q27486926-1269FE56-4A25-4119-803C-95571BFF07BFQ27490464-3F0578F5-7E78-44F3-99BE-E6041AF119C5Q27490533-C1B89A3B-2386-4BF9-A7FE-166C1F773AB5Q28741831-3FDE1F24-80F0-4C3A-B4A0-8987F54324ADQ29620770-1435EF55-BDB1-459F-9B0B-07757B7F00EEQ33785429-DA108A3C-037B-486C-9EFC-FC64D7723240Q33937351-AACBCEAC-D3E1-4F2A-99C7-6D586CA51EC8Q35666002-55C925A6-8ED8-4C0C-8EE7-03DD10BFB38CQ35943622-5D72BBF5-6F2C-4140-A5E5-695029B95C01Q36080269-02D3F50D-6FB7-422F-BEB3-AA01FC9B9655Q36281573-84AF329C-7190-467D-8395-F41DCEF2FBB8
P2860
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
description
1991 nî lūn-bûn
@nan
1991 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@ast
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@en
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@nl
type
label
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@ast
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@en
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@nl
prefLabel
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@ast
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@en
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@nl
P2093
P1433
P1476
Viral cytopathogenicity correlated with integration of ubiquitin-coding sequences.
@en
P2093
P304
P356
10.1016/0042-6822(91)90074-L
P407
P577
1991-02-01T00:00:00Z