Global Analysis of Short RNAs Reveals Widespread Promoter-Proximal Stalling and Arrest of Pol II in Drosophila

被引：330

作者：

Nechaev, Sergei ^{[1
]}

Fargo, David C. ^{[2
,3
]}

dos Santos, Gilberto ^{[1
]}

Liu, Liwen ^{[4
]}

Gao, Yuan ^{[5
]}

Adelman, Karen ^{[1
]}

机构：

[1] NIEHS, Mol Carcinogenesis Lab, NIH, Res Triangle Pk, NC 27709 USA

[2] NIEHS, Lib Serv, NIH, Res Triangle Pk, NC 27709 USA

[3] NIEHS, Informat Serv, NIH, Res Triangle Pk, NC 27709 USA

[4] NIEHS, Biostat Branch, NIH, Res Triangle Pk, NC 27709 USA

[5] Virginia Commonwealth Univ, Dept Comp Sci, Richmond, VA 23284 USA

来源：

SCIENCE | 2010年 / 327卷 / 5963期

关键词：

CLEAVAGE FACTOR TFIIS; POLYMERASE-II; TRANSCRIPTION INITIATION; ELONGATION; MELANOGASTER; GENES; NELF; EXPRESSION; STABILITY; INVITRO;

D O I：

10.1126/science.1181421

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Emerging evidence indicates that gene expression in higher organisms is regulated by RNA polymerase II stalling during early transcription elongation. To probe the mechanisms responsible for this regulation, we developed methods to isolate and characterize short RNAs derived from stalled RNA polymerase II in Drosophila cells. Significant levels of these short RNAs were generated from more than one-third of all genes, indicating that promoter-proximal stalling is a general feature of early polymerase elongation. Nucleotide composition of the initially transcribed sequence played an important role in promoting transcriptional stalling by rendering polymerase elongation complexes highly susceptible to backtracking and arrest. These results indicate that the intrinsic efficiency of early elongation can greatly affect gene expression.

引用

页码：335 / 338

页数：4

共 21 条

[1] Promoter-proximal pol II: When stalling speeds things up
Nechaev, Sergei
Adelman, Karen
CELL CYCLE, 2008, 7 (11) : 1539 - 1544
[2] NELF-mediated stalling of Pol II can enhance gene expression by blocking promoter-proximal nucleosome assembly
Gilchrist, Daniel A.
Nechaev, Sergei
Lee, Chanhyo
Ghosh, Saikat Kumar B.
Collins, Jennifer B.
Li, Leping
Gilmour, David S.
Adelman, Karen
GENES & DEVELOPMENT, 2008, 22 (14) : 1921 - 1933
[3] Promoter-proximal pausing of Pol II enhances gene expression
Adelman, Karen
Gilchrist, Daniel
Nechaev, Sergei
Dos Santos, Gilberto
FASEB JOURNAL, 2009, 23
[4] Transcript isoform sequencing reveals widespread promoter-proximal transcriptional termination in Arabidopsis
Thomas, Quentin Angelo
Ard, Ryan
Liu, Jinghan
Li, Bingnan
Wang, Jingwen
Pelechano, Vicent
Marquardt, Sebastian
NATURE COMMUNICATIONS, 2020, 11 (01)
[5] Transcript isoform sequencing reveals widespread promoter-proximal transcriptional termination in Arabidopsis
Quentin Angelo Thomas
Ryan Ard
Jinghan Liu
Bingnan Li
Jingwen Wang
Vicent Pelechano
Sebastian Marquardt
Nature Communications, 11
[6] Release of promoter-proximal paused Pol II in response to histone deacetylase inhibition
Vaid, Roshan
Wen, Jiayu
Mannervik, Mattias
NUCLEIC ACIDS RESEARCH, 2020, 48 (09) : 4877 - 4890
[7] Oxidative stress rapidly stabilizes promoter-proximal paused Pol II across the human genome
Nilson, Kyle A.
Lawson, Christine K.
Mullen, Nicholas J.
Ball, Christopher B.
Spector, Benjamin M.
Meier, Jeffery L.
Price, David H.
NUCLEIC ACIDS RESEARCH, 2017, 45 (19) : 11088 - 11105
[8] Argonaute-Bound Small RNAs from Promoter-Proximal RNA Polymerase II
Zamudio, Jesse R.
Kelly, Timothy J.
Sharp, Phillip A.
CELL, 2014, 156 (05) : 920 - 934
[9] NELF Regulates a Promoter-Proximal Step Distinct from RNA Pol II Pause-Release
Aoi, Yuki
Smith, Edwin R.
Shah, Avani P.
Rendleman, Emily J.
Marshall, Stacy A.
Woodfin, Ashley R.
Chen, Fei X.
Shiekhattar, Ramin
Shilatifard, Ali
MOLECULAR CELL, 2020, 78 (02) : 261 - +
[10] Promoter escape by RNA polymerase II - A role for an ATP cofactor in suppression of arrest by polymerase at promoter-proximal sites
Dvir, A
Conaway, RC
Conaway, JW
JOURNAL OF BIOLOGICAL CHEMISTRY, 1996, 271 (38) : 23352 - 23356

← 1 2 3 →