Modulation of hepatitis C virus RNA abundance and the isoprenoid biosynthesis pathway by microRNA miR-122 involves distinct mechanisms
about
Regulation of hepatitis C virus translation and infectious virus production by the microRNA miR-122MicroRNA biogenesis and their functions in regulating stem cell potency and differentiationMetabolic alterations and hepatitis C: From bench to bedsideTargeting viral infection by microRNA inhibitionmicroRNA-122 abundance in hepatocellular carcinoma and non-tumor liver tissue from Japanese patients with persistent HCV versus HBV infection.MicroRNAs in metabolism and metabolic disordersHuman metapneumovirus infection induces significant changes in small noncoding RNA expression in airway epithelial cells.miR-139-5p modulates cortical neuronal migration by targeting Lis1 in a rat model of focal cortical dysplasiamiR-122 does not modulate the elongation phase of hepatitis C virus RNA synthesis in isolated replicase complexes.Alcohol facilitates HCV RNA replication via up-regulation of miR-122 expression and inhibition of cyclin G1 in human hepatoma cellsInhibition of alpha interferon (IFN-α)-induced microRNA-122 negatively affects the anti-hepatitis B virus efficiency of IFN-α.Unconventional miR-122 binding stabilizes the HCV genome by forming a trimolecular RNA structure.MiR-125b reduces porcine reproductive and respiratory syndrome virus replication by negatively regulating the NF-κB pathwayMasking the 5' terminal nucleotides of the hepatitis C virus genome by an unconventional microRNA-target RNA complex.End game: getting the most out of microRNAsLiver-specific microRNA-122: Biogenesis and functionCoxsackievirus B3 engineered to contain microRNA targets for muscle-specific microRNAs displays attenuated cardiotropic virulence in mice.miR-122 stimulates hepatitis C virus RNA synthesis by altering the balance of viral RNAs engaged in replication versus translationTransient replication of Hepatitis C Virus sub-genomic RNA in murine cell lines is enabled by miR-122 and varies with cell passagemiR-122 activates hepatitis C virus translation by a specialized mechanism requiring particular RNA components.Targeting microRNA-122 to Treat Hepatitis C Virus Infection.Dual regulation of hepatitis C viral RNA by cellular RNAi requires partitioning of Ago2 to lipid droplets and P-bodiesThe porcine microRNA transcriptome response to transmissible gastroenteritis virus infectionThe emerging role of microRNAs in drug responsesStabilization of hepatitis C virus RNA by an Ago2-miR-122 complex.Regulation of Hepatitis C Virus Genome Replication by Xrn1 and MicroRNA-122 Binding to Individual Sites in the 5' Untranslated Region.Relationships of PBMC microRNA expression, plasma viral load, and CD4+ T-cell count in HIV-1-infected elite suppressors and viremic patientsLipid metabolite profiling identifies desmosterol metabolism as a new antiviral target for hepatitis C virus.MicroRNA-122 plays a critical role in liver homeostasis and hepatocarcinogenesisModulation of hepatitis C virus RNA abundance and virus release by dispersion of processing bodies and enrichment of stress granules.Competing and noncompeting activities of miR-122 and the 5' exonuclease Xrn1 in regulation of hepatitis C virus replication.Recent insights and novel bioinformatics tools to understand the role of microRNAs binding to 5' untranslated region.Hepatitis B virus mRNA-mediated miR-122 inhibition upregulates PTTG1-binding protein, which promotes hepatocellular carcinoma tumor growth and cell invasion.Virus-specific mechanisms of carcinogenesis in hepatitis C virus associated liver cancerMiR-122 in hepatic function and liver diseases.Modulation of GB virus B RNA abundance by microRNA-122: dependence on and escape from microRNA-122 restriction.Beneficial IL28B genotype associated with lower frequency of hepatic steatosis in patients with chronic hepatitis CInvolvement of eukaryotic small RNA pathways in host defense and viral pathogenesisEnhancement of hepatitis C viral RNA abundance by precursor miR-122 molecules.TIM-1 Promotes Hepatitis C Virus Cell Attachment and Infection.
P2860
Q24609988-7FBE2320-D951-44AA-8AD6-1788FB87EC25Q26766383-3D47009E-912A-4D29-9704-FCB2A57542D6Q26773261-CAA04F9D-745C-47A9-838A-E6ECD608B60DQ27491314-A5D43952-4112-412C-9F6C-5C80680EA965Q31141908-FDCE2EE6-A11A-4AF6-94F6-6CC31F630E05Q33612997-B5FAD964-084E-43F5-BECF-80D0BAF62E30Q33694826-C1448C75-6A75-4CC6-A39C-D90B62847A03Q33748429-3AEE4547-181C-4AF0-B81A-0DDA74033297Q34126418-6C8DADB7-0A09-4A19-9C1A-C57C43E12646Q34228009-B73B3907-CCCA-4815-A1E3-6DF93CD7C1A5Q34305346-A0E6FCB9-D570-4E45-A7FB-F631E5F471DBQ34328215-2A4CA587-D23F-4E93-9D78-3CD7A8160114Q34586343-A83ED10C-8DBC-431C-8D56-84AA0D684A77Q34602502-5A22B208-0402-4ECD-884D-114E7F4DE739Q34602835-755D11E3-0032-4780-9295-55B71FCD7016Q34635210-CE6D2100-A3D0-4B66-8774-30F6C9A36C5EQ34991060-88478959-3406-4817-8095-1AEDB161392FQ35079438-9BED4C8B-559F-44AE-BCF6-8F41BA3E5ADDQ35108474-B647D061-F6DB-48F8-A62D-FD29DA9BBCF4Q35224344-9A1E4E51-9298-4D30-B4BD-7ABD9816ED3BQ35261089-F18A1D96-6737-48C7-955E-ED3B1819E9F7Q35262563-CE7E86B6-E1A2-4E64-B8A8-4C2B85611A07Q35579362-ABCB1F2A-B6DB-4963-9621-AE549D2CF343Q35599477-2DC6DA7D-FFA2-4523-8765-1FBC8AC53205Q35735135-FCF5AE6B-FE23-4818-A0E9-A0A757697227Q35760482-667C945F-229B-4C2B-A515-C37C51952AC7Q35799435-5AA84714-6423-4F77-AC72-FA85DE91F5C9Q36032672-8BB247A5-3FFC-4CC3-8755-8C7CDCB6841FQ36129123-5C58225A-AAA0-4CE7-AB94-6924D5A5F8CCQ36501665-64292B04-771F-4212-AA6C-CF930156024CQ36583277-D775A60D-D733-47B5-AB0F-F70298000F93Q36589922-497A598D-87D2-4F11-A295-EB1F57E38887Q36607449-CEBF92E3-F636-451A-A455-B4A54E58CBE4Q36812745-AACF187F-8FBB-47ED-97E7-B17288BDB57AQ36923038-27210A9E-80A8-41A6-93A5-253AD45266B6Q36978913-1872726D-CFA3-4FF7-AEF3-42238A93F4D1Q37149463-382870A4-F69E-4A7C-813D-2CB75210A0E1Q37376368-E98D7DD4-943A-48E3-995E-80D445CA22C1Q37448762-43F201B3-C623-4D65-B1EC-C1733F22C70EQ37560808-5F825CE7-6DDB-448E-9A39-D2FF47AE562B
P2860
Modulation of hepatitis C virus RNA abundance and the isoprenoid biosynthesis pathway by microRNA miR-122 involves distinct mechanisms
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@ast
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@en
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@nl
type
label
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@ast
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@en
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@nl
altLabel
Modulation of Hepatitis C Viru ...... 2 Involves Distinct Mechanisms
@en
prefLabel
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@ast
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@en
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@nl
P2860
P356
P1433
P1476
Modulation of hepatitis C viru ...... 2 involves distinct mechanisms
@en
P2093
Kara L Norman
Peter Sarnow
P2860
P304
P356
10.1128/JVI.01156-09
P407
P577
2010-01-01T00:00:00Z