about
A cis-replication element functions in both orientations to enhance replication of Turnip crinkle virusA replication silencer element in a plus-strand RNA virusViral quasispecies evolutionTerminal nucleotidyl transferase activity of recombinant Flaviviridae RNA-dependent RNA polymerases: implication for viral RNA synthesis.Recombinant viral RdRps can initiate RNA synthesis from circular templates.Repair and Polyadenylation of a Naturally Occurring Hepatitis C Virus 3' Nontranslated Region-Shorter Variant in Selectable Replicon Cell LinesCatalytic Core of Alphavirus Nonstructural Protein nsP4 Possesses Terminal Adenylyltransferase ActivityDe Novo Synthesis of Negative-Strand RNA by Dengue Virus RNA-Dependent RNA Polymerase In Vitro: Nucleotide, Primer, and Template ParametersGenome 3'-end repair in dengue virus type 2Different de novo initiation strategies are used by influenza virus RNA polymerase on its cRNA and viral RNA promoters during viral RNA replication.Mutagenic Effects of Ribavirin on Hepatitis E Virus-Viral Extinction versus Selection of Fitness-Enhancing MutationsThe combined effect of environmental and host factors on the emergence of viral RNA recombinantsAlfalfa mosaic virus coat protein bridges RNA and RNA-dependent RNA polymerase in vitroRepair of the tRNA-like CCA sequence in a multipartite positive-strand RNA virus.Translation elongation factor 1A facilitates the assembly of the tombusvirus replicase and stimulates minus-strand synthesis.Dissecting RNA recombination in vitro: role of RNA sequences and the viral replicase.Evidence that the polymerase of respiratory syncytial virus initiates RNA replication in a nontemplated fashion.The terminal loop of a 3' proximal hairpin plays a critical role in replication and the structure of the 3' region of Turnip crinkle virus.Evolution of virus-derived sequences for high-level replication of a subviral RNASynergistic roles of eukaryotic translation elongation factors 1Bγ and 1A in stimulation of tombusvirus minus-strand synthesisMolecular basis for nucleotide conservation at the ends of the dengue virus genome.Analysis of sequences and predicted structures required for viral satellite RNA accumulation by in vivo genetic selection.Direct inhibition of tombusvirus plus-strand RNA synthesis by a dominant negative mutant of a host metabolic enzyme, glyceraldehyde-3-phosphate dehydrogenase, in yeast and plants.Satellite RNAs and Satellite Viruses of PlantsThe first two nucleotides of the respiratory syncytial virus antigenome RNA replication product can be selected independently of the promoter terminusCoordinated function of cellular DEAD-box helicases in suppression of viral RNA recombination and maintenance of viral genome integrity.Polymerization of nontemplate bases before transcription initiation at the 3' ends of templates by an RNA-dependent RNA polymerase: an activity involved in 3' end repair of viral RNAs.Factors regulating template switch in vitro by viral RNA-dependent RNA polymerases: implications for RNA-RNA recombination.Viral AlkB proteins repair RNA damage by oxidative demethylationMechanisms of viral emergence.Initiation of protein-primed picornavirus RNA synthesis.Cystoviral RNA-directed RNA polymerases: Regulation of RNA synthesis on multiple time and length scales.In vivo addition of poly(A) tail and AU-rich sequences to the 3' terminus of the Sindbis virus RNA genome: a novel 3'-end repair pathway.Template-independent repair of the 3' end of cucumber mosaic virus satellite RNA controlled by RNAs 1 and 2 of helper virus.In vitro- and in vivo-generated defective RNAs of satellite panicum mosaic virus define cis-acting RNA elements required for replication and movement.Alphavirus RNA genome repair and evolution: molecular characterization of infectious sindbis virus isolates lacking a known conserved motif at the 3' end of the genome.Comparison of turnip crinkle virus RNA-dependent RNA polymerase preparations expressed in Escherichia coli or derived from infected plants.The RNA replication enhancer element of tombusviruses contains two interchangeable hairpins that are functional during plus-strand synthesis.Bunyamwera virus can repair both insertions and deletions during RNA replicationRole of initiating nucleoside triphosphate concentrations in the regulation of influenza virus replication and transcription.
P2860
Q24612511-2CABB088-847B-432E-9E52-A728A5118FA4Q24680078-8AEC1322-3364-4AEF-AECC-33973ABF33E7Q27013917-5A631EFB-B98F-4904-9EE2-6064AA1F5D49Q27469965-EDAB472E-27B5-4631-A94E-9A33119CE7D2Q27472979-6824C3E5-F991-4E87-93AA-8717E1FA69EFQ27473216-7B138525-FB78-4356-B844-8447046F2048Q27477547-9AEABACF-F296-4A9E-9737-43FFA56AE7E7Q27477711-C507432F-7B6B-45CC-98C0-ED019D50FA29Q27487378-95740427-9874-4ECB-A266-3F235EC9E497Q27863913-8819A123-B595-4065-9ADF-FAD4752212E8Q28072953-B81078F6-97CB-489B-A112-465A17B9A19BQ28475876-E51E741E-E671-40FA-87E6-2532B9DAB2F7Q28756546-6EA0EDF7-CB9E-457C-9371-32A28A8272E0Q33718671-E7ABC91F-1F2B-4011-B83E-BD679106E64CQ33747578-E320A948-ED61-4CA7-8ED4-87E62BB89D1BQ33888722-8E0EDE08-775A-4D77-8E15-D937E69E3A2CQ33933216-472AD348-87D1-4648-8CCE-7EAC240D4EF4Q33936195-40DD9FAB-8C7E-40A6-B76E-5E0001AB55ACQ34065793-9FD36311-DC73-4993-A2FD-293D3548B4FBQ34109766-431E6C39-D896-4515-905C-AFD2C9D5B9EFQ34426452-AAB9AB05-BC17-424B-8E51-BB0E54B592D9Q34666446-C1E4ECA6-1AF2-4DD9-8FBD-20A17908D7D3Q35192852-FDF50C91-A352-4D04-825A-B3311ACCAEADQ35259936-6D764C1E-7EF5-4501-95AF-C197BA37E0EDQ35262618-4A390878-CE75-48CB-B363-DD0570CD05AEQ35563566-5208FC2A-7889-4932-9553-D507989E26D1Q35813510-A85F6808-C769-4B1A-B5A9-D92D8114C94BQ35859061-9E836DA4-6FA9-4646-BC57-CFE48A0A261AQ36909341-08018A5A-F288-49E6-9B75-75D9006F711EQ37694793-61987597-F51B-4FC7-8CF3-0B6F0D1582F8Q38319798-142A94B2-4CF3-40A5-BFFA-3F72F78EB846Q39095552-E3FD3216-8AF6-473D-8130-1B5ACA1641F0Q39551973-FD4B6957-35AD-49BF-BA4B-279B89AC6CBCQ39580802-EA624233-9777-49C5-9D9C-07F9495609F8Q39589572-60D64712-925B-4EBB-BFC0-02185CC4D3CAQ39593484-EB45E053-45B9-459F-8B6E-DECECC6F68CBQ39682478-C92C3C2C-11AA-446D-9EB6-905B7B0E0EAFQ39698369-00154296-333E-4E91-8A9D-A0A4BEC07C7FQ39709124-5AA9E40E-CE11-4068-ACAC-288A56882C7BQ39764297-060ABBB3-14E2-4D87-BB79-67D63E44EFD2
P2860
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
A novel 3'-end repair mechanism in an RNA virus.
@ast
A novel 3'-end repair mechanism in an RNA virus.
@en
type
label
A novel 3'-end repair mechanism in an RNA virus.
@ast
A novel 3'-end repair mechanism in an RNA virus.
@en
prefLabel
A novel 3'-end repair mechanism in an RNA virus.
@ast
A novel 3'-end repair mechanism in an RNA virus.
@en
P2093
P2860
P356
P1476
A novel 3'-end repair mechanism in an RNA virus.
@en
P2093
C D Carpenter
P2860
P304
P356
10.1073/PNAS.94.4.1113
P407
P577
1997-02-01T00:00:00Z