Effects of Transcription Elongation Rate and Xrn2 Exonuclease Activity on RNA Polymerase II Termination Suggest Widespread Kinetic Competition. - Wikidata - thesis-toulmin - TriplyDB

Effects of Transcription Elongation Rate and Xrn2 Exonuclease Activity on RNA Polymerase II Termination Suggest Widespread Kinetic Competition.

Effects of Transcription Elongation Rate and Xrn2 Exonuclease Activity on RNA Polymerase II Termination Suggest Widespread Kinetic Competition.

http://www.wikidata.org/entity/Q38827412

about

Recent advances in understanding transcription termination by RNA polymerase II Transcriptional termination in mammals: Stopping the RNA polymerase II juggernaut Wide-ranging and unexpected consequences of altered Pol II catalytic activity in vivo.Readthrough transcription: How are DoGs made and what do they do?XRN2 Links Transcription Termination to DNA Damage and Replication Stress.P-TEFb regulation of transcription termination factor Xrn2 revealed by a chemical genetic screen for Cdk9 substrates.Divergence of a conserved elongation factor and transcription regulation in budding and fission yeast The Nrd1-like protein Seb1 coordinates cotranscriptional 3' end processing and polyadenylation site selection.Eukaryotic replication origins: Strength in flexibility.Transcription elongation rate has a tissue-specific impact on alternative cleavage and polyadenylation in Drosophila melanogaster.Transcription Regulation in Archaea.The Structural Basis of Transcription: 10 Years After the Nobel Prize in Chemistry.Pause & go: from the discovery of RNA polymerase pausing to its functional implications.A generative model for the behavior of RNA polymerase.Human TFIIH Kinase CDK7 Regulates Transcription-Associated Chromatin Modifications.Total RNA-seq to identify pharmacological effects on specific stages of mRNA synthesis.Two distinct transcription termination modes dictated by promoters.Calcium signaling and transcription: elongation, DoGs, and eRNAs.U1 snRNP telescripting regulates a size-function-stratified human genome.High-resolution transcription maps reveal the widespread impact of roadblock termination in yeast.Cdk9 regulates a promoter-proximal checkpoint to modulate RNA polymerase II elongation rate in fission yeast.Factor-dependent archaeal transcription termination.CDK regulation of transcription by RNAP II: Not over 'til it's over?Herpes Simplex Virus 1 Dramatically Alters Loading and Positioning of RNA Polymerase II on Host Genes Early in Infection.Xrn2 accelerates termination by RNA polymerase II, which is underpinned by CPSF73 activity.RNA Pol II Dynamics Modulate Co-transcriptional Chromatin Modification, CTD Phosphorylation, and Transcriptional Direction.Cell-Cycle Modulation of Transcription Termination Factor Sen1.Versatile approach for functional analysis of human proteins and efficient stable cell line generation using FLP-mediated recombination system.Common mechanism of transcription termination at coding and noncoding RNA genes in fission yeast An end in sight? Xrn2 and transcriptional termination by RNA polymerase II A Cdk9-PP1 switch regulates the elongation-termination transition of RNA polymerase II

P2860

Q26740715-F15873AD-0559-4F1D-926D-B7B4D1EC6A46 Q28080059-38B4448F-415E-4F0B-9672-B745DA090983 Q33635923-42AF1F9C-FCAB-4A56-93D8-141F34FB1EFB Q33739688-CC2B55E0-EEA2-4F3B-93F7-A075B881B575 Q36082634-74F7E7A3-5E96-4DF0-83B0-133B463241E6 Q36432038-8F4D3BBA-D652-4AAE-AFC6-6F9FBCF76714 Q36959177-E88793C1-2F52-4095-B936-780A0AE36F72 Q37104717-15AD1468-56AE-476C-9C72-E2BE77456953 Q37189674-F7BBD417-0AF0-4F50-B933-1D3740E9BEF0 Q38603201-F626364D-B75C-447E-B8CA-EDCF8AD9C084 Q38823441-28AB69C2-1830-452D-A570-59784371E29E Q38977021-56F1B35F-EE64-48D5-A8C6-773FEC36FE04 Q39211326-0F899368-4B87-4A58-B34B-64F35326BE42 Q39356451-2C5B2426-7FD8-4383-80BB-DBA50CC1322C Q41468789-46E730C3-DE81-42CC-8845-8A8713654A34 Q42775893-6FCDF6AE-D757-495C-B3AB-764D79B98526 Q45347360-1A860D84-4097-402E-A818-3DB49702357B Q47122300-F8A1D923-D89C-4D43-8DD9-E26B7BECD3D2 Q47149918-7B621010-9427-486C-B89C-073DF22235EE Q48205304-080276B8-279C-4D43-8F7E-54372D6D2ED3 Q49163645-DABE5ADC-D440-45E2-A9D4-072CF80F2445 Q49423852-F2BBCF4E-7AE1-43D8-89AC-462F71127FFA Q50015077-EEC276AF-1969-42AC-AF96-6DCBF3DCBC17 Q50043331-A1C859BC-C4C6-453D-9A71-BC1DA7A9009D Q50064038-F11BE9E9-4E6B-44F3-AE02-60E913C0E292 Q50645951-6FA0BD49-4C43-4935-A45B-951AE4064A6E Q52321011-23C08FE9-92E5-4D87-83A6-FFBBE6141DCC Q52431094-63EF4392-8D24-4945-9DC1-FA39342147C4 Q57810978-DCAB8B30-8281-47D0-A04B-91ED82C4BC4A Q58802672-10989E1A-C6CF-4BCC-A126-44E18052B912 Q59087054-6408E202-D294-48B6-AE13-967620A76488

P2860

Effects of Transcription Elongation Rate and Xrn2 Exonuclease Activity on RNA Polymerase II Termination Suggest Widespread Kinetic Competition.

http://www.wikidata.org/entity/Q38827412

description

2015 nî lūn-bûn

@nan

2015年の論文

@ja

2015年論文

@yue

2015年論文

@zh-hant

2015年論文

@zh-hk

2015年論文

@zh-mo

2015年論文

@zh-tw

2015年论文

@wuu

2015年论文

@zh

2015年论文

@zh-cn

name

Effects of Transcription Elong ...... idespread Kinetic Competition.

@en

type

label

Effects of Transcription Elong ...... idespread Kinetic Competition.

@en

prefLabel

Effects of Transcription Elong ...... idespread Kinetic Competition.

@en

P1433

Q38827412-8706D00F-8B91-48E9-919E-D1074925EEAA

P1476

Q38827412-7BCB5193-8B38-4BDA-A6EB-6F29111F45D4

P2093

Q38827412-01A0DED0-97CC-4EF4-AE6F-A423A43C2353

Q38827412-9298697B-565D-47A4-BE4D-CEB2E765622F

Q38827412-93D02686-E1B3-4343-A7BD-113BB38CD874

Q38827412-A60D40A9-7C24-4A42-8037-7B732AB90692

Q38827412-AF37075E-2833-451D-BDD2-82044586E46F

Q38827412-AF3B98F2-5CDE-4E5D-BC21-0153DDEA7B62

Q38827412-EEA94586-FBFA-42B8-B493-5FD247A1B58A

P2860

Q38827412-01FA94C3-C969-424B-AA93-0CCCE081092E

Q38827412-03B1C176-A38E-4DD1-B782-94414DAD94F4

Q38827412-0EA7BDD3-14E4-45A5-831D-24058916E4DA

Q38827412-14294266-9277-461C-BC2F-8BB444F5AD88

Q38827412-15AA786F-5F65-4C43-9CA1-A9AEB57E39A6

Q38827412-15D5D719-92BF-4FEE-A359-6911EE049311

Q38827412-1DA24F47-E101-4AD1-B732-86BEB8E585C5

Q38827412-21ED70DB-8762-495C-BE8E-E18B53240FC6

Q38827412-23C09813-05F1-47DE-8E9A-0B96F652DDD7

Q38827412-24B5FAC9-BF44-4F50-89AC-F6435C23DEE3

P304

Q38827412-34F109AF-8731-4333-888E-2ADDC7888BF8

P31

Q38827412-B35B2041-FD90-4335-9053-1A1530F33D7E

P356

Q38827412-86F6030A-DF43-4AA0-BA1C-71825C91C2EF

P433

Q38827412-E53B985D-EC1A-44FA-8A9B-2531A8A9AD49

P478

Q38827412-9E50CF5D-E21C-45B1-98B8-FD763B0C4C57

P50

Q38827412-7221EBED-375E-4BC7-8FBA-585FDB075968

Q38827412-A0AFDE51-3761-4893-AB45-D48442E0065D

P577

Q38827412-83E85A6D-8163-4765-867D-781708AF1C00

P698

Q38827412-AA93383B-B385-4E78-ABEA-4CDAE7DAADD1

P932

Q38827412-3998634A-C477-49A6-A438-585BAAE5830D

P356

J.MOLCEL.2015.09.026

P1433

P1476

Effects of Transcription Elong ...... Widespread Kinetic Competition

@en

P2093

Benjamin Erickson

http://www.w3.org/2001/XMLSchema#string

Hyunmin Kim

http://www.w3.org/2001/XMLSchema#string

Kristopher Brannan

http://www.w3.org/2001/XMLSchema#string

Michael A Cortazar

http://www.w3.org/2001/XMLSchema#string

Nova Fong

http://www.w3.org/2001/XMLSchema#string

Shai Karp

http://www.w3.org/2001/XMLSchema#string

Tram Nguyen

http://www.w3.org/2001/XMLSchema#string

P2860

Ultrafast and memory-efficient alignment of short DNA sequences to the human genome

Human senataxin resolves RNA/DNA hybrids formed at transcriptional pause sites to promote Xrn2-dependent termination

Human 5' --> 3' exonuclease Xrn2 promotes transcription termination at co-transcriptional cleavage sites

Ebola virus entry requires the cholesterol transporter Niemann-Pick C1

Integrator, a multiprotein mediator of small nuclear RNA processing, associates with the C-terminal repeat of RNA polymerase II

Symplekin and multiple other polyadenylation factors participate in 3'-end maturation of histone mRNAs

Pause sites promote transcriptional termination of mammalian RNA polymerase II

The multifunctional protein p54nrb/PSF recruits the exonuclease XRN2 to facilitate pre-mRNA 3' processing and transcription termination

Coupled 5′ Nucleotide Recognition and Processivity in Xrn1-Mediated mRNA Decay

A bacterial-like mechanism for transcription termination by the Sen1p helicase in budding yeast.

P304

256-267

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.MOLCEL.2015.09.026

http://www.w3.org/2001/XMLSchema#string

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

60

http://www.w3.org/2001/XMLSchema#string

P50

David L Bentley

Ryan M Sheridan

P577

2015-10-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

26474067

http://www.w3.org/2001/XMLSchema#string

P932

4654110

http://www.w3.org/2001/XMLSchema#string