Initiation factor-independent translation mediated by the hepatitis C virus internal ribosome entry site
about
ABC50 promotes translation initiation in mammalian cellsInvolvement of creatine kinase B in hepatitis C virus genome replication through interaction with the viral NS4A proteinThe 3' proximal translational enhancer of Turnip crinkle virus binds to 60S ribosomal subunitsEnterovirus Control of Translation and RNA Granule Stress ResponsesDiscovery of significant variants containing large deletions in the 5'UTR of human hepatitis C virus (HCV)Initiation of Protein Synthesis by Hepatitis C Virus Is Refractory to Reduced eIF2 {middle dot} GTP {middle dot} Met-tRNAiMet Ternary Complex AvailabilityHCV and CSFV IRES domain II mediate eIF2 release during 80S ribosome assemblyStudying Hepatitis C Virus: Making the Best of a Bad VirusTargeted inhibition of the hepatitis C internal ribosomal entry site genomic RNA with oligonucleotide conjugateseIF2-dependent and eIF2-independent modes of initiation on the CSFV IRES: a common role of domain IIRNA-Binding Protein hnRNP D Modulates Internal Ribosome Entry Site-Dependent Translation of Hepatitis C Virus RNAAnalysis of natural variants of the hepatitis C virus internal ribosome entry site reveals that primary sequence plays a key role in cap-independent translationInternal Initiation Stimulates Production of p8 Minicore, a Member of a Newly Discovered Family of Hepatitis C Virus Core Protein IsoformsTranslation of viral mRNA without active eIF2: the case of picornavirusesNovel 5' untranslated region directed blockers of iron-regulatory protein-1 dependent amyloid precursor protein translation: implications for down syndrome and Alzheimer's diseaseA magnesium-induced RNA conformational switch at the internal ribosome entry site of hepatitis C virus genome visualized by atomic force microscopyMultiple Parallel Pathways of Translation Initiation on the CrPV IRESRe-analysis of cryoEM data on HCV IRES bound to 40S subunit of human ribosome integrated with recent structural information suggests new contact regions between ribosomal proteins and HCV RNAGiardiavirus internal ribosome entry site has an apparently unique mechanism of initiating translation.Initiation factor eIF2-independent mode of c-Src mRNA translation occurs via an internal ribosome entry site.Feline calicivirus can tolerate gross changes of its minor capsid protein expression levels induced by changing translation reinitiation frequency or use of a separate VP2-coding mRNA.The 5' untranslated region of the human T-cell lymphotropic virus type 1 mRNA enables cap-independent translation initiationToward a structural understanding of IRES RNA functionThe duck hepatitis virus 5'-UTR possesses HCV-like IRES activity that is independent of eIF4F complex and modulated by downstream coding sequences.eIF2A mediates translation of hepatitis C viral mRNA under stress conditions.RNA structural elements of hepatitis C virus controlling viral RNA translation and the implications for viral pathogenesis.Virus-induced translational arrest through 4EBP1/2-dependent decay of 5'-TOP mRNAs restricts viral infection.Eukaryotic ribosomal protein RPS25 interacts with the conserved loop region in a dicistroviral intergenic internal ribosome entry site.OLA1 regulates protein synthesis and integrated stress response by inhibiting eIF2 ternary complex formation.Evidence that the Upf1-related molecular motor scans the 3'-UTR to ensure mRNA integrity.Poly(A) leader of eukaryotic mRNA bypasses the dependence of translation on initiation factorsStructural domains within the HIV-1 mRNA and the ribosomal protein S25 influence cap-independent translation initiation.Canonical initiation factor requirements of the Myc family of internal ribosome entry segments.Reprogramming mRNA translation during stressTranslation initiation factors are not required for Dicistroviridae IRES function in vivoCellular and molecular biology of HCV infection and hepatitis.IRES-induced conformational changes in the ribosome and the mechanism of translation initiation by internal ribosomal entry.Tinkering with translation: protein synthesis in virus-infected cells.Establishment of chronic hepatitis C virus infection: translational evasion of oxidative defenceUnderstanding the potential of hepatitis C virus internal ribosome entry site domains to modulate translation initiation via their structure and function.
P2860
Q24309583-C80B0787-6ED1-46AA-9248-7D2AB1A55930Q24317879-85550B90-C980-4BD4-8CE8-D347B699A0D4Q24644485-A861BD94-15F6-4C27-AD2A-87C46C671E30Q26752604-EC3E0162-DD71-4E66-BF04-AF4AFDCE22ECQ27477509-80458EA9-EA77-43FA-8212-34977D2D9D36Q27477598-C67AF21D-D23D-411E-BC81-79C12E74A545Q27478025-84816D85-D760-4346-B092-496FB7D47967Q27481034-61178153-E676-467F-B351-98A5C668FC78Q27485045-A7B5121D-BA1C-4490-AD00-FC797967630BQ27485879-8A2C3C15-4840-4FAF-B127-0B1BE3884536Q27487410-8CFC494D-761E-4383-936F-262E315B02BBQ27487957-975B1C6C-106A-4732-97B6-39CCD92A39A5Q27488209-96E763F9-2157-4019-BB1A-D84AA7A2F812Q28479039-C69F62B4-AAB5-4ADE-8260-81691BC843BCQ28535011-0BA9A2DA-6739-4D06-BBB6-FA1660204A89Q30418471-DE11FECE-95BF-4D9D-B918-A005FC5D08C3Q30740392-0BAAFBC6-57A8-44E5-8616-7F487511A9AAQ30856398-7C517AAC-55A2-4144-8419-3F7C29D2BAF9Q33510331-C0C448D1-1270-42A3-B19A-BDD8C7416C7CQ33648488-64CC08ED-13C8-4129-8E2E-DE39C16116E6Q33875277-9AD00815-40C8-48A2-BBA3-5B6EA51B4987Q33887817-2C8DA037-3985-44BE-A25B-02F1E143BE05Q34017026-CF55D119-02EB-4CCC-85DD-DD6354D32472Q34174362-EDFB7201-69E7-4B67-AB05-B65353B33ED3Q34183856-83A0BB79-B947-49B6-BB6C-413D9D0A952AQ34314871-BFF5B16E-51F6-4DD9-A0AE-FA2B12EBF081Q35699045-BA1B3B76-FB3E-477C-B48F-EF00FE3EBE3BQ35781839-71F01D7E-D959-4430-A6FF-D4DA6A9B3398Q35964463-24633ED6-AB58-4B02-9A45-A068ACD73C25Q36144866-D6A13699-A011-47BE-93AB-C65935941912Q36793105-22520279-C562-4BF6-AED9-033419C4F3BFQ37072119-15D14C96-8BD9-422F-B532-599BAA4533E9Q37110582-D2C7B2A4-F510-4727-A7F5-79AC042ED626Q37115046-3C8D7FE2-92F9-43E4-B7A7-6A38DAFBEA08Q37168969-72582E9E-85CF-4568-A768-5B01D3523339Q37514366-71BDA6A6-6719-471D-9DC6-B6231D68B266Q37524928-76332836-2406-449F-BE5B-63A46E0F5D65Q38064834-3F5AA7BD-B579-44F8-8106-38B559A47212Q38198617-91291F73-85E3-431A-9565-F062CB0B41CAQ38263444-20277F63-B571-47A3-B62A-597601754265
P2860
Initiation factor-independent translation mediated by the hepatitis C virus internal ribosome entry site
description
2006 nî lūn-bûn
@nan
2006 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մարտին 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
Initiation factor-independent ...... s internal ribosome entry site
@ast
Initiation factor-independent ...... s internal ribosome entry site
@en
Initiation factor-independent ...... s internal ribosome entry site
@nl
type
label
Initiation factor-independent ...... s internal ribosome entry site
@ast
Initiation factor-independent ...... s internal ribosome entry site
@en
Initiation factor-independent ...... s internal ribosome entry site
@nl
prefLabel
Initiation factor-independent ...... s internal ribosome entry site
@ast
Initiation factor-independent ...... s internal ribosome entry site
@en
Initiation factor-independent ...... s internal ribosome entry site
@nl
P2093
P2860
P3181
P356
P1433
P1476
Initiation factor-independent ...... s internal ribosome entry site
@en
P2093
Alissa M Lancaster
Peter Sarnow
P2860
P304
P3181
P356
10.1261/RNA.2342306
P407
P577
2006-03-23T00:00:00Z