Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
about
Structural Basis for the Specificity of Human NUDT16 and Its Regulation by Inosine MonophosphateNew insights into decapping enzymes and selective mRNA decayA Mammalian Pre-mRNA 5′ End Capping Quality Control Mechanism and an Unexpected Link of Capping to Pre-mRNA ProcessingMultiple Nudix family proteins possess mRNA decapping activityThe DEAD-box protein Dhh1 promotes decapping by slowing ribosome movementCytoplasmic mRNA turnover and ageingA human microprotein that interacts with the mRNA decapping complexmRNA quality control at the 5' end.Quality control of assembly-defective U1 snRNAs by decapping and 5'-to-3' exonucleolytic digestion.A noncoding RNA produced by arthropod-borne flaviviruses inhibits the cellular exoribonuclease XRN1 and alters host mRNA stabilityCompetition between Decapping Complex Formation and Ubiquitin-Mediated Proteasomal Degradation Controls Human Dcp2 Decapping Activity.Virus-induced translational arrest through 4EBP1/2-dependent decay of 5'-TOP mRNAs restricts viral infection.Dcp2 decapping protein modulates mRNA stability of the critical interferon regulatory factor (IRF) IRF-7.A conserved mechanism of TOR-dependent RCK-mediated mRNA degradation regulates autophagy.Nudt3 is an mRNA decapping enzyme that modulates cell migration.A genome-wide RNAi screen reveals that mRNA decapping restricts bunyaviral replication by limiting the pools of Dcp2-accessible targets for cap-snatchingThe D10 decapping enzyme of vaccinia virus contributes to decay of cellular and viral mRNAs and to virulence in miceAttacked from All Sides: RNA Decay in Antiviral Defense.A brief survey of mRNA surveillance.The 5' → 3' exoribonuclease XRN1/Pacman and its functions in cellular processes and development.Inhibition and avoidance of mRNA degradation by RNA viruses.Structural and functional control of the eukaryotic mRNA decapping machinery.Structure and function of pre-mRNA 5'-end capping quality control and 3'-end processing.Hypo- and Hyper-Assembly Diseases of RNA-Protein Complexes.dTIS11 Protein-dependent polysomal deadenylation is the key step in AU-rich element-mediated mRNA decay in Drosophila cells.A long noncoding RNA associated with susceptibility to celiac diseaseEpigenetic loss of the RNA decapping enzyme NUDT16 mediates C-MYC activation in T-cell acute lymphoblastic leukemia.Nudix hydrolases degrade protein-conjugated ADP-ribose.Bunyaviral cap-snatching vs. decapping: recycling cell cycle mRNAs.NUDT expression is predictive of prognosis in patients with clear cell renal cell carcinoma.Hydrolytic activity of human Nudt16 enzyme on dinucleotide cap analogs and short capped oligonucleotides.
P2860
Q24338282-DEB20E9C-937A-46A1-B9D0-D343C2DEAF1BQ26739992-20C396BB-5483-4596-933E-6EFA9B728BAAQ27676995-33D62BAA-EC26-43C8-BA7C-4525696DCC34Q27930396-FC5C0173-EF07-4B5A-BEC4-172A3BA9AD11Q27940178-C9B22DDC-B729-4E2D-9459-C97843E32A24Q28081605-80D115D7-3072-491F-985D-0163DD11E758Q28596559-6D45A024-1FCD-4B50-9731-68EED61A5B27Q33826909-6818C9DD-2FE2-43BD-8491-B1B19A5C6F4BQ34060813-73332F65-5A16-4FAB-8FFE-D887C1392446Q34301595-0B6FD49E-CAF0-4298-8EE8-4C3E50A60D0BQ35626088-A6724E7A-05E4-46E4-AADA-CDA3E48B3931Q35699045-194E9F25-6C5E-4B96-AED4-E4B5293E38C9Q35806638-3B68FA57-A7FB-4DFE-8296-183634AADBB5Q35926529-D61EEFDE-A677-45B6-80E7-C45C601D3E91Q36812733-DA741BC1-7E9F-40B7-BE64-FC11E0928060Q37019225-7F2A8A71-8241-4FDA-AFB9-D36DD9E0C762Q37547637-5E3A65F9-0E29-4F44-BFC6-D5E860B9B124Q37628197-E0E5E6F8-9E1D-4AED-A63E-7D37720FFDB3Q37929397-2095AC82-3B9C-4ADC-96AE-4C3D23AFA4E1Q37989882-2D9C697F-6064-47BE-A770-F8D5AE4D5908Q38012919-C2DE679E-FFF7-4713-8648-15FA40105D30Q38071446-6166CED1-8631-45B4-B4EA-D52B2980DB07Q38195095-E2AE6233-659E-4FDC-B9EB-28455E28C76BQ38855284-11299A0F-07D0-4896-BB5D-B7486CEB87DBQ39288616-00C40E58-B390-4BD7-9869-5869EA521363Q39872709-6B894303-6B28-467D-9425-93E2ACFC0EACQ40958676-C34F9A83-5FC1-4142-81B4-2A2A09010535Q41892525-7C33DDB5-2BF8-4D75-AFE5-EAFE5C976E64Q42731984-A1CB1807-2F93-4B27-9241-934470A9DDDCQ46310635-A6677228-BBF5-44E7-A816-AF8ED59B70EFQ52684409-E8544AB4-3173-451E-804D-0B64BB72601F
P2860
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
description
2011 nî lūn-bûn
@nan
2011 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@ast
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@en
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@nl
type
label
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@ast
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@en
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@nl
prefLabel
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@ast
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@en
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@nl
P2093
P2860
P356
P1433
P1476
Differential utilization of decapping enzymes in mammalian mRNA decay pathways.
@en
P2093
Mangen Song
Megerditch Kiledjian
P2860
P304
P356
10.1261/RNA.2439811
P407
P577
2011-01-11T00:00:00Z