|Molecular architecture of the human pre-mRNA 3′ processing complex|
Y Shi, DC Di Giammartino, D Taylor, A Sarkeshik, WJ Rice, JR Yates III, ...
Molecular cell 33 (3), 365-376, 2009
|Complex and dynamic landscape of RNA polyadenylation revealed by PAS-Seq|
PJ Shepard, EA Choi, J Lu, LA Flanagan, KJ Hertel, Y Shi
Rna 17 (4), 761-772, 2011
|Alternative polyadenylation: new insights from global analyses|
Rna 18 (12), 2105-2117, 2012
|Molecular analysis of the evolutionary significance of ultraviolet vision in vertebrates|
Y Shi, S Yokoyama
Proceedings of the National Academy of Sciences 100 (14), 8308-8313, 2003
|The end of the message: multiple protein–RNA interactions define the mRNA polyadenylation site|
Y Shi, JL Manley
Genes & development 29 (9), 889-897, 2015
|Molecular genetics and the evolution of ultraviolet vision in vertebrates|
Y Shi, FB Radlwimmer, S Yokoyama
Proceedings of the National Academy of Sciences 98 (20), 11731-11736, 2001
|Transcriptome-wide analyses of CstF64–RNA interactions in global regulation of mRNA alternative polyadenylation|
C Yao, J Biesinger, J Wan, L Weng, Y Xing, X Xie, Y Shi
Proceedings of the National Academy of Sciences 109 (46), 18773-18778, 2012
|Pre‐mRNA 3′‐end processing complex assembly and function|
S Chan, EA Choi, Y Shi
Wiley Interdisciplinary Reviews: RNA 2 (3), 321-335, 2011
|CPSF30 and Wdr33 directly bind to AAUAAA in mammalian mRNA 3′ processing|
SL Chan, I Huppertz, C Yao, L Weng, JJ Moresco, JR Yates, J Ule, ...
Genes & development 28 (21), 2370-2380, 2014
|PP1/PP2A phosphatases are required for the second step of Pre-mRNA splicing and target specific snRNP proteins|
Y Shi, B Reddy, JL Manley
Molecular cell 23 (6), 819-829, 2006
|Fip1 regulates mRNA alternative polyadenylation to promote stem cell self‐renewal|
B Lackford, C Yao, GM Charles, L Weng, X Zheng, EA Choi, X Xie, J Wan, ...
The EMBO journal 33 (8), 878-889, 2014
|Genetics and evolution of ultraviolet vision in vertebrates|
S Yokoyama, Y Shi
Febs Letters 486 (2), 167-172, 2000
|A complex signaling pathway regulates SRp38 phosphorylation and pre-mRNA splicing in response to heat shock|
Y Shi, JL Manley
Molecular cell 28 (1), 79-90, 2007
|The THO complex regulates pluripotency gene mRNA export and controls embryonic stem cell self-renewal and somatic cell reprogramming|
L Wang, YL Miao, X Zheng, B Lackford, B Zhou, L Han, C Yao, JM Ward, ...
Cell stem cell 13 (6), 676-690, 2013
|Molecular mechanisms for CFIm-mediated regulation of mRNA alternative polyadenylation|
Y Zhu, X Wang, E Forouzmand, J Jeong, F Qiao, GA Sowd, AN Engelman, ...
Molecular cell 69 (1), 62-74. e4, 2018
|Nudt21 controls cell fate by connecting alternative polyadenylation to chromatin signaling|
J Brumbaugh, B Di Stefano, X Wang, M Borkent, E Forouzmand, ...
Cell 172 (1-2), 106-120. e21, 2018
|PARP1 represses PAP and inhibits polyadenylation during heat shock|
DC Di Giammartino, Y Shi, JL Manley
Molecular cell 49 (1), 7-17, 2013
|Molecular basis for the recognition of the human AAUAAA polyadenylation signal|
Y Sun, Y Zhang, K Hamilton, JL Manley, Y Shi, T Walz, L Tong
Proceedings of the National Academy of Sciences 115 (7), E1419-E1428, 2018
|Overlapping and distinct functions of CstF64 and CstF64τ in mammalian mRNA 3′ processing|
C Yao, EA Choi, L Weng, X Xie, J Wan, Y Xing, JJ Moresco, PG Tu, ...
Rna 19 (12), 1781-1790, 2013
|A snoRNA modulates mRNA 3′ end processing and regulates the expression of a subset of mRNAs|
C Huang, J Shi, Y Guo, W Huang, S Huang, S Ming, X Wu, R Zhang, ...
Nucleic acids research 45 (15), 8647-8660, 2017