Importance of ribosomal frameshifting for human immunodeficiency virus type 1 particle assembly and replication.
about
The frameshift signal of HIV-1 involves a potential intramolecular triplex RNA structureHIV-1 frameshift efficiency is primarily determined by the stability of base pairs positioned at the mRNA entrance channel of the ribosomeIdentification of a cellular factor that modulates HIV-1 programmed ribosomal frameshiftingFactors affecting translation at the programmed -1 ribosomal frameshifting site of Cocksfoot mottle virus RNA in vivo.Mechanisms and implications of programmed translational frameshiftingRibosomal frameshifting and transcriptional slippage: From genetic steganography and cryptography to adventitious useSolution structure of the HIV-1 frameshift inducing stem-loop RNAProgrammed Ribosomal Frameshifting in SIV Is Induced by a Highly Structured RNA Stem–LoopGuanidinoneomycin B Recognition of an HIV-1 RNA HelixStructure of the HIV-1 Frameshift Site RNA Bound to a Small Molecule Inhibitor of Viral ReplicationSpecific effects of ribosome-tethered molecular chaperones on programmed -1 ribosomal frameshifting.High-affinity recognition of HIV-1 frameshift-stimulating RNA alters frameshifting in vitro and interferes with HIV-1 infectivityRibosomal protein L5 helps anchor peptidyl-tRNA to the P-site in Saccharomyces cerevisiae.HIV-1 and Human PEG10 Frameshift Elements Are Functionally Distinct and Distinguished by Novel Small Molecule ModulatorsAblation of Programmed -1 Ribosomal Frameshifting in Venezuelan Equine Encephalitis Virus Results in Attenuated Neuropathogenicity.Control of gag-pol gene expression in the Candida albicans retrotransposon Tca2Selection of peptides interfering with a ribosomal frameshift in the human immunodeficiency virus type 1Understanding HIV-1 protease autoprocessing for novel therapeutic development.Selection and characterization of small molecules that bind the HIV-1 frameshift site RNA.Achieving a golden mean: mechanisms by which coronaviruses ensure synthesis of the correct stoichiometric ratios of viral proteins.Human immunodeficiency virus type 1-specific immunity after genetic immunization is enhanced by modification of Gag and Pol expression.Stimulation of -1 programmed ribosomal frameshifting by a metabolite-responsive RNA pseudoknotA loop 2 cytidine-stem 1 minor groove interaction as a positive determinant for pseudoknot-stimulated -1 ribosomal frameshiftingAnalysis of natural variants of the human immunodeficiency virus type 1 gag-pol frameshift stem-loop structureProline residues within spacer peptide p1 are important for human immunodeficiency virus type 1 infectivity, protein processing, and genomic RNA dimer stability.Regulation of programmed ribosomal frameshifting by co-translational refolding RNA hairpins.Replacement of murine leukemia virus readthrough mechanism by human immunodeficiency virus frameshift allows synthesis of viral proteins and virus replication.The conformation of the mature dimeric human immunodeficiency virus type 1 RNA genome requires packaging of pol protein.Small molecules that target the toxic RNA in myotonic dystrophy type 2.A rapid, inexpensive yeast-based dual-fluorescence assay of programmed--1 ribosomal frameshifting for high-throughput screening.Revealing -1 programmed ribosomal frameshifting mechanisms by single-molecule techniques and computational methodsRibosomal protein and biogenesis factors affect multiple steps during movement of the Saccharomyces cerevisiae Ty1 retrotransposon.A general strategy to inhibiting viral -1 frameshifting based on upstream attenuation duplex formation.N-Methylation as a Strategy for Enhancing the Affinity and Selectivity of RNA-binding Peptides: Application to the HIV-1 Frameshift-Stimulating RNA.Characterization of RNA elements that regulate gag-pol ribosomal frameshifting in equine infectious anemia virus.Functional consequences of human immunodeficiency virus escape from an HLA-B*13-restricted CD8+ T-cell epitope in p1 Gag protein.The role of programmed-1 ribosomal frameshifting in coronavirus propagation.The impact of altered polyprotein ratios on the assembly and infectivity of Mason-Pfizer monkey virusTargeting human immunodeficiency virus type 1 assembly, maturation and budding.Targeting frameshifting in the human immunodeficiency virus.
P2860
Q24534107-DA92828F-A434-4A27-918D-D78EBB23C1B2Q24628718-2A3D9EF3-2D66-4BC2-9D00-04FFB9002616Q24632938-E36F4EBF-8711-4FA8-9792-60A935884FE1Q24805870-5C42E684-BBA8-474C-8982-2DAAF3E9A7DBQ26852197-0C9C323C-F1EE-4598-8258-DC90D6D6BDE4Q26970809-554A8413-96AF-43A4-91A6-3F33E82320BDQ27641759-5C7A747E-E304-4E7D-9784-A904239A0E1FQ27648154-82C58B4B-F450-41DD-8BED-CA1888772639Q27649212-5BACD5B6-2813-4F3A-9CE1-5E7DDBC38850Q27666265-A260E921-FFB2-44BD-B7CE-625550AC5972Q27940051-13C662C0-AB55-442D-9E04-05C15F1E1121Q28305122-9A3761C2-2754-4C1E-A596-3711D902426AQ28345718-FEFC0153-9A2A-4724-9909-C79132829A8BQ28550143-4F2C65B2-1CD4-4605-8CB4-52D80B4C5514Q31142686-6320CE26-2800-4D7E-9AF0-8E010D1CF665Q33303913-26A1EC69-9D3C-4DC6-A448-91416A90D5FEQ33325834-BB9E1C10-3959-48AB-9DF2-0EAE5D338037Q33356201-2B18D58A-F5BF-47F0-89F6-D9DFCAF99817Q33492916-C39EFDF9-692D-49DF-8B63-D7DF005189A1Q33826694-7D5D83FE-448F-4F07-875B-CD22017B50F4Q33841686-624C2C4A-09F6-4FE1-9055-E1710A16FEBFQ33867472-D2A69EAE-C35A-4CD6-A203-A27D319087FCQ33944010-14FC8751-2761-48B4-A6AB-7426B7F6B124Q34343740-190DA65F-6F7A-4547-9980-6752F49E1F9EQ34354549-4F720170-B033-405B-9802-E68E8ADE763FQ34701166-3DB22CE2-F7C5-4D07-87CD-EDD03837E97AQ34757472-743FF559-8C3A-4A27-93AD-E6BC0909A891Q34999802-A3B1A2AE-6AB3-4E06-A359-0A9699787D9BQ35061734-C52B59CB-A452-4DD3-879C-79BED4323333Q35153545-EB8F2D59-33E2-4F06-A761-2442D1755BA6Q35876091-A5C6387C-A0CE-47D5-93B2-F14709C2AD4DQ36357824-50F438B8-8024-4F2B-A090-4043223CD91FQ36443292-7D7935AC-14F8-4380-8EE6-6BC730EDED53Q36482677-311A344C-7963-4F12-8FB5-44234DB2ADEFQ36525098-22F813FB-A258-4B6F-A130-1A9DF09A8FC8Q37033282-0A01C279-24F8-48CA-B8CF-9873FA5DAA26Q37175409-F80B4059-CE78-46CD-83D4-7A153A3666BEQ37189392-8EA81753-9CC1-467D-AAFA-C1906A16E288Q37928913-18FC59D8-66E1-47B5-94E9-2523C7F8CF24Q37992096-0FBCCBF5-674C-42A1-A807-D2349CD1A3A0
P2860
Importance of ribosomal frameshifting for human immunodeficiency virus type 1 particle assembly and replication.
description
1998 nî lūn-bûn
@nan
1998 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Importance of ribosomal frames ...... ticle assembly and replication
@nl
Importance of ribosomal frames ...... icle assembly and replication.
@ast
Importance of ribosomal frames ...... icle assembly and replication.
@en
type
label
Importance of ribosomal frames ...... ticle assembly and replication
@nl
Importance of ribosomal frames ...... icle assembly and replication.
@ast
Importance of ribosomal frames ...... icle assembly and replication.
@en
prefLabel
Importance of ribosomal frames ...... ticle assembly and replication
@nl
Importance of ribosomal frames ...... icle assembly and replication.
@ast
Importance of ribosomal frames ...... icle assembly and replication.
@en
P2093
P2860
P3181
P1433
P1476
Importance of ribosomal frames ...... icle assembly and replication.
@en
P2093
P2860
P304
P3181
P407
P577
1998-06-01T00:00:00Z