about
Exonuclease hDIS3L2 specifies an exosome-independent 3'-5' degradation pathway of human cytoplasmic mRNARNA exosome depletion reveals transcription upstream of active human promotersSaccharomyces cerevisiae Ngl3p is an active 3'-5' exonuclease with a specificity towards poly-A RNA reminiscent of cellular deadenylases.Dissecting mechanisms of nuclear mRNA surveillance in THO/sub2 complex mutants.Rat1p maintains RNA polymerase II CTD phosphorylation balanceInteractions between mRNA export commitment, 3'-end quality control, and nuclear degradationThe Nuclear PolyA-Binding Protein Nab2p Is Essential for mRNA Production.Localization of nuclear retained mRNAs in Saccharomyces cerevisiae.Human nonsense-mediated RNA decay initiates widely by endonucleolysis and targets snoRNA host genes.An atlas of active enhancers across human cell types and tissues.PROMoter uPstream Transcripts share characteristics with mRNAs and are produced upstream of all three major types of mammalian promoters.Rapid, optimized interactomic screeningPromoter-proximal polyadenylation sites reduce transcription activity.Improved methodology for the affinity isolation of human protein complexes expressed at near endogenous levels.Relationships between PROMPT and gene expression.Exonucleolysis is required for nuclear mRNA quality control in yeast THO mutantsA conserved virus-induced cytoplasmic TRAMP-like complex recruits the exosome to target viral RNA for degradation.Purification and analysis of endogenous human RNA exosome complexes.Quality control of mRNP in the nucleus.Principles for RNA metabolism and alternative transcription initiation within closely spaced promoters.Mutational analysis of the yeast RNA helicase Sub2p reveals conserved domains required for growth, mRNA export, and genomic stability.The human cap-binding complex is functionally connected to the nuclear RNA exosome.Mutually Exclusive CBC-Containing Complexes Contribute to RNA Fate.Transcription-associated quality control of mRNP.RNA decay machines: the exosome.Making ends meet: coordination between RNA 3'-end processing and transcription initiation.Dealing with pervasive transcription.Nonsense-mediated mRNA decay: an intricate machinery that shapes transcriptomes.Characterising cis-regulatory variation in the transcriptome of histologically normal and tumour-derived pancreatic tissues.Biochemistry and Function of RNA Exosomes.A 5' splice site enhances the recruitment of basal transcription initiation factors in vivo.Structure of the RBM7-ZCCHC8 core of the NEXT complex reveals connections to splicing factors.Identification of a Nuclear Exosome Decay Pathway for Processed Transcripts.Human Gene Promoters Are Intrinsically BidirectionalARS2 is a general suppressor of pervasive transcriptionLariat capping as a tool to manipulate the 5' end of individual yeast mRNA species in vivo.Nuclear stability and transcriptional directionality separate functionally distinct RNA species.Characterizing ZC3H18, a Multi-domain Protein at the Interface of RNA Production and Destruction Decisions.Targeting the nuclear RNA exosome: Poly(A) binding proteins enter the stage.Identification and characterization of GFAPkappa, a novel glial fibrillary acidic protein isoform.
P50
Q24294915-1FB5D2E1-2CAB-42B5-874D-2A829AA902BCQ24321777-FDD9E5D2-604A-4BED-BAF2-A4C13AE1F3ECQ27931836-DD9DC897-22B5-476E-BD80-C38D6AC7EC60Q27932830-44C9F1FA-A6DD-47A7-9E23-E4A23BC2E029Q27934245-85D766A3-4199-4E48-87F5-9660EFE8E726Q27938985-A5507F24-CD4E-4E1D-BE35-3268C745E67DQ27939636-3FC24914-B02B-4FAD-B453-A4BC282FF6F1Q34365269-ACC9B0F8-C693-4205-97BC-11620CCCF389Q34518964-EBA1125F-A068-4E5B-BD58-21BD1CEF58C3Q34660689-F974AD88-4B52-4129-BC38-A57023E4EA64Q35198329-DEC82F3D-3CC1-46DB-941B-07C1F21C1A95Q35665985-3E54F89C-1145-406F-A4AC-43F1B8FA809DQ36301827-A9744D26-5AA8-4E22-A296-79264020FADCQ36708847-DEAED228-6D32-4C4B-9249-05507A472C7EQ36791498-96201D97-6D06-4964-99A3-1D6B610230F1Q36962852-3D81B2A1-99E8-4D54-B8FF-6113C409AB2CQ37151378-B5B01189-BE41-41FB-BDA9-7B717B86A631Q37179903-89FD4E8D-D082-41DA-9E4A-1C84FFD61813Q37194592-9C09AD57-7274-4C49-8761-B8270B186A42Q37225762-29B1A1BF-0E0B-4290-AE0C-3FD7BD6F1EFCQ37371769-7B4D5A22-802D-43C8-8591-03EC10878697Q37581812-3AB92323-105C-4E12-A66C-D2F015C70622Q37723733-3CF1381E-E2E7-49A9-AC2C-4935456832C9Q38043828-E053492E-207A-4CD9-96BC-184EABD9E56AQ38077004-597E0676-2E62-43C8-B71A-FDB9C3658B8AQ38085601-39BB13A7-57BE-436C-8B7A-64E7CAF730FDQ38165377-4D9A1F4B-1B8C-487B-BFEE-963BB7E9131BQ38591386-A2AD13E7-4AAC-4922-8001-5AF29EB607A9Q38716510-CAC0F642-8561-49DB-AEC0-A85330A77B33Q38831623-E6558B2C-6E20-4647-B65F-BBC1FA1BE1F2Q40017610-47D1E252-67D0-4A99-9F29-B39C5DD7D36BQ41412817-0AE81AC0-06DE-4E04-9DE9-E5E14816B686Q41412958-1F078448-5771-4090-9DEF-AEBB2DD718BBQ42334234-CB3F740A-F8CD-4B86-974B-32567FCFAF72Q42367984-2B7BF271-2382-4940-8917-28CF5901F8B8Q46423378-EE1730E0-AEE7-4AF3-92FE-18FD3F3ECFD9Q46815592-D5557037-1766-4E97-8207-85D4B3AA9AFEQ47213986-BB5D4D61-79A5-4685-BA47-9AF066F07646Q48259886-BC7C0C30-5496-40E6-A416-D9051DFCD38BQ48319233-F88A28CC-FB4D-480A-AD84-8706BF60712D
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Torben Heick Jensen
@ast
Torben Heick Jensen
@en
Torben Heick Jensen
@es
Torben Heick Jensen
@nl
Torben Heick Jensen
@sl
type
label
Torben Heick Jensen
@ast
Torben Heick Jensen
@en
Torben Heick Jensen
@es
Torben Heick Jensen
@nl
Torben Heick Jensen
@sl
prefLabel
Torben Heick Jensen
@ast
Torben Heick Jensen
@en
Torben Heick Jensen
@es
Torben Heick Jensen
@nl
Torben Heick Jensen
@sl
P1053
G-2954-2017
P106
P1153
7401539705
P21
P31
P496
0000-0001-5127-1239