Vaccinia virus D10 protein has mRNA decapping activity, providing a mechanism for control of host and viral gene expression.
about
Multiple mRNA decapping enzymes in mammalian cellsStress Beyond Translation: Poxviruses and MoreThe master regulator of the cellular stress response (HSF1) is critical for orthopoxvirus infectionColocalization of transcription and translation within cytoplasmic poxvirus factories coordinates viral expression and subjugates host functions.Regulation of host translational machinery by African swine fever virus.Simultaneous high-resolution analysis of vaccinia virus and host cell transcriptomes by deep RNA sequencingMolecular characterization of a novel mycovirus in the cultivated mushroom, Lentinula edodes.Characterization of a second vaccinia virus mRNA-decapping enzyme conserved in poxviruses.Characterization of the vaccinia virus D10 decapping enzyme provides evidence for a two-metal-ion mechanism.Strategies for viral RNA stability: live long and prosperPoxvirus decapping enzymes enhance virulence by preventing the accumulation of dsRNA and the induction of innate antiviral responsesVaccinia virus F16 protein, a predicted catalytically inactive member of the prokaryotic serine recombinase superfamily, is targeted to nucleoli.Cleavage of Dicer protein by I7 protease during vaccinia virus infection.Investigation of IRES Insertion into the Genome of Recombinant MVA as a Translation Enhancer in the Context of Transcript Decapping.Inhibition of Translation Initiation by Protein 169: A Vaccinia Virus Strategy to Suppress Innate and Adaptive Immunity and Alter Virus Virulence.The African swine fever virus g5R protein possesses mRNA decapping activity.Hypovirulence of Sclerotium rolfsii Caused by Associated RNA Mycovirus.Exploratory analysis of Symbiodinium transcriptomes reveals potential latent infection by large dsDNA viruses.Eukaryotic translation initiation factor 4F architectural alterations accompany translation initiation factor redistribution in poxvirus-infected cellsInterplay between viruses and host mRNA degradationThe control of mRNA decapping and P-body formation.Orthopoxvirus targets for the development of new antiviral agents.Opposing Roles of Double-Stranded RNA Effector Pathways and Viral Defense Proteins Revealed with CRISPR-Cas9 Knockout Cell Lines and Vaccinia Virus MutantsPredicted poxvirus FEN1-like nuclease required for homologous recombination, double-strand break repair and full-size genome formation.The D10 decapping enzyme of vaccinia virus contributes to decay of cellular and viral mRNAs and to virulence in miceViruses and the cellular RNA decay machinery.Tinkering with translation: protein synthesis in virus-infected cells.Lsm proteins bind and stabilize RNAs containing 5' poly(A) tracts.Emerging roles for RNA degradation in viral replication and antiviral defense.Diverse mechanisms evolved by DNA viruses to inhibit early host defenses.Golgi anti-apoptotic protein: a tale of camels, calcium, channels and cancerCellular 5'-3' mRNA exonuclease Xrn1 controls double-stranded RNA accumulation and anti-viral responses.The 5'-poly(A) leader of poxvirus mRNA confers a translational advantage that can be achieved in cells with impaired cap-dependent translation.Nuclease escape elements protect messenger RNA against cleavage by multiple viral endonucleases.Going against the Tide: Selective Cellular Protein Synthesis during Virally Induced Host Shutoff.Ribosome Profiling Reveals Translational Upregulation of Cellular Oxidative Phosphorylation mRNAs during Vaccinia Virus-Induced Host Shutoff.TMV induces RNA decay pathways to modulate gene silencing and disease symptoms.Insights into the molecular determinants involved in cap recognition by the vaccinia virus D10 decapping enzyme.Characterization of the African swine fever virus decapping enzyme during infection.Vaccinia virus particles mix inefficiently, and in a way that would restrict viral recombination, in coinfected cells.
P2860
Q24306739-8E37CA91-AC7C-4C6A-B8F4-BD7F0B6367BFQ26744471-EE85FDF5-6334-4D45-A125-2D38A5B49642Q28539622-1887F421-1D6B-44F3-8846-A9EF093EA6CBQ30480693-2836C62F-5CB7-4E26-A12D-4DC68BEAEABAQ33497920-62A552C6-E277-449E-A872-6B99B3EFEFA9Q33953053-61BBB9B7-9908-4D05-A47B-760AEBF41B8EQ34184984-EB717118-479C-4E53-A786-98EDFE736A26Q34690881-9882EA4B-D000-4180-9EC0-86B43F39DC09Q34942694-A67872DA-7B94-45B1-9EA4-43D35D81829AQ35069751-9972531B-114A-4D87-AE6B-C8CD1295DF07Q35177770-D972B997-AA69-4D8A-B647-D64FA61CC411Q35186326-591038F5-7E78-4B39-9F98-FEA140BCCF8CQ35225008-458F0B99-C4ED-4DFB-BB73-C12D16F55A56Q35642108-36FFD1F3-5F12-46B9-92C3-58E8F2C6F7CCQ35763016-C88E2BE5-C79A-4920-B0C8-2194298EBC80Q36082826-2FA4C51B-A58A-4ED2-8D79-3549F69E6DA1Q36204988-1C0413F0-BFF9-498F-A6C5-BCA4C11C959DQ36360995-CA74BD31-75EE-4BFC-A272-65E67B0C0FB8Q36540315-58EDB467-F685-412E-8F0D-8C0288E1C02AQ36785197-2B178A65-12CC-4B03-895D-44446528600CQ37071772-83313611-9CDF-423C-8C09-F8DD29454186Q37173398-9D6AE4E1-BC46-46BF-87C1-37A9F7F831C2Q37182678-EF295BDB-F41C-4205-9CD6-E2B75F7BF9F9Q37371038-2A6A6523-600E-4415-82D1-E3900DDFD375Q37547637-7F68ACD0-88E0-460D-B589-E876F5A52EF4Q37940382-94863115-7AF8-490F-929A-DC82046ABCE0Q38064834-76BC7467-C0AB-4C30-A509-D38F0B468E87Q38299230-3FF4B140-6A4E-4540-8D77-D56688B5A700Q38365673-9F7E1A6B-1AF8-4F8E-8AE4-DDF8BE6EC4B6Q38960064-8B430AFE-02FF-4291-8B7D-EB073BBAD7F8Q39281472-258CF329-BE78-4B96-ACD1-6817F9723DE5Q40000006-3AA2B77B-B4B0-41CA-A1BB-5AD9046A2BDEQ40064979-70CF99CB-49FA-49B9-9168-8E2BA0A0B194Q40070266-7297DD8A-5429-4E20-A05B-9932C01FED80Q40150622-5E911723-73E6-4998-9A96-D050B58B67EEQ40399879-12957389-E4C4-42D1-B3E9-CA53DD5F8702Q40550445-3CAE1CEA-D9E9-4405-9C25-9CE5EC17A39EQ41352122-8C1288BA-9395-4B46-8F03-AB1B5F7A4C02Q41918732-716ECE10-5477-40BF-8C64-1B6C71206989Q42917842-9942C6A8-29BE-45ED-A442-A76A41D4913D
P2860
Vaccinia virus D10 protein has mRNA decapping activity, providing a mechanism for control of host and viral gene expression.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@ast
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@en
type
label
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@ast
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@en
prefLabel
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@ast
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@en
P2860
P356
P1476
Vaccinia virus D10 protein has ...... ost and viral gene expression.
@en
P2093
Susan Parrish
Wolfgang Resch
P2860
P304
P356
10.1073/PNAS.0611685104
P407
P50
P577
2007-02-05T00:00:00Z