N 6-methyladenosine in nuclear RNA is a major substrate of the obesity-associated FTO G Jia, Y Fu, X Zhao, Q Dai, G Zheng, Y Yang, C Yi, T Lindahl, T Pan, ... Nature chemical biology 7 (12), 885-887, 2011 | 1591 | 2011 |
N6-methyladenosine-dependent regulation of messenger RNA stability X Wang, Z Lu, A Gomez, GC Hon, Y Yue, D Han, Y Fu, M Parisien, Q Dai, ... Nature 505 (7481), 117-120, 2014 | 1471 | 2014 |
Dynamic RNA modifications in gene expression regulation IA Roundtree, ME Evans, T Pan, C He Cell 169 (7), 1187-1200, 2017 | 785 | 2017 |
N6-methyladenosine-dependent RNA structural switches regulate RNA–protein interactions N Liu, Q Dai, G Zheng, C He, M Parisien, T Pan Nature 518 (7540), 560-564, 2015 | 775 | 2015 |
An evolutionarily conserved mechanism for controlling the efficiency of protein translation T Tuller, A Carmi, K Vestsigian, S Navon, Y Dorfan, J Zaborske, T Pan, ... Cell 141 (2), 344-354, 2010 | 729 | 2010 |
Tissue-specific differences in human transfer RNA expression KA Dittmar, JM Goodenbour, T Pan PLoS Genet 2 (12), e221, 2006 | 500 | 2006 |
The dynamic N1-methyladenosine methylome in eukaryotic messenger RNA D Dominissini, S Nachtergaele, S Moshitch-Moshkovitz, E Peer, N Kol, ... Nature 530 (7591), 441-446, 2016 | 483 | 2016 |
Innate immune and chemically triggered oxidative stress modifies translational fidelity N Netzer, JM Goodenbour, A David, KA Dittmar, RB Jones, JR Schneider, ... Nature 462 (7272), 522-526, 2009 | 289 | 2009 |
In vitro selection of RNAs that undergo autolytic cleavage with lead (2+) T Pan, OC Uhlenbeck Biochemistry 31 (16), 3887-3895, 1992 | 280 | 1992 |
A small metalloribozyme with a two-step mechanism T Pan, OC Uhlenbeck Nature 358 (6387), 560-563, 1992 | 278 | 1992 |
Efficient and quantitative high-throughput tRNA sequencing G Zheng, Y Qin, WC Clark, Q Dai, C Yi, C He, AM Lambowitz, T Pan Nature methods 12 (9), 835-837, 2015 | 272 | 2015 |
Probing N6-methyladenosine RNA modification status at single nucleotide resolution in mRNA and long noncoding RNA N Liu, M Parisien, Q Dai, G Zheng, C He, T Pan Rna 19 (12), 1848-1856, 2013 | 268 | 2013 |
Reversible, specific, active aggregates of endogenous proteins assemble upon heat stress EWJ Wallace, JL Kear-Scott, EV Pilipenko, MH Schwartz, PR Laskowski, ... Cell 162 (6), 1286-1298, 2015 | 267 | 2015 |
Crystal structure of the specificity domain of ribonuclease P AS Krasilnikov, X Yang, T Pan, A Mondragón Nature 421 (6924), 760-764, 2003 | 261 | 2003 |
Codon-usage-based inhibition of HIV protein synthesis by human schlafen 11 M Li, E Kao, X Gao, H Sandig, K Limmer, M Pavon-Eternod, TE Jones, ... Nature 491 (7422), 125-128, 2012 | 251 | 2012 |
tRNA over-expression in breast cancer and functional consequences M Pavon-Eternod, S Gomes, R Geslain, Q Dai, MR Rosner, T Pan Nucleic acids research 37 (21), 7268-7280, 2009 | 241 | 2009 |
N6-methyladenosine alters RNA structure to regulate binding of a low-complexity protein N Liu, KI Zhou, M Parisien, Q Dai, L Diatchenko, T Pan Nucleic acids research 45 (10), 6051-6063, 2017 | 238 | 2017 |
Crystal structure of the RNA component of bacterial ribonuclease P A Torres-Larios, KK Swinger, AS Krasilnikov, T Pan, A Mondragón Nature 437 (7058), 584-587, 2005 | 236 | 2005 |
GAL4 transcription factor is not a" zinc finger" but forms a Zn (II) 2Cys6 binuclear cluster T Pan, JE Coleman Proceedings of the National Academy of Sciences 87 (6), 2077-2081, 1990 | 234 | 1990 |
Domain structure of the ribozyme from eubacterial ribonuclease P. A Loria, T Pan Rna 2 (6), 551-563, 1996 | 222 | 1996 |