TBP, a universal eukaryotic transcription factor? N Hernandez Genes dev 7 (7B), 1291-308, 1993 | 984 | 1993 |
Recruitment of RNA polymerase III to its target promoters L Schramm, N Hernandez Genes & development 16 (20), 2593-2620, 2002 | 750 | 2002 |
Coordinated effects of sequence variation on DNA binding, chromatin structure, and transcription H Kilpinen, SM Waszak, AR Gschwind, SK Raghav, RM Witwicki, A Orioli, ... Science 342 (6159), 744-747, 2013 | 401 | 2013 |
Splicing of in vitro synthesized messenger RNA precursors in HeLa cell extracts N Hernandez, W Keller Cell 35 (1), 89-99, 1983 | 309 | 1983 |
A 7 bp mutation converts a human RNA polymerase II snRNA promoter into an RNA polymerase III promoter SM Lobo, N Hernandez Cell 58 (1), 55-67, 1989 | 305 | 1989 |
Signals regulating hepatitis B surface antigen transcription R Cattaneo, H Will, N Hernandez, H Schaller Nature 305 (5932), 336-338, 1983 | 305 | 1983 |
Formation of the 3′ end of U1 snRNA requires compatible snRNA promoter elements N Hernandez, AM Weiner Cell 47 (2), 249-258, 1986 | 296 | 1986 |
A role for β-actin in RNA polymerase III transcription P Hu, S Wu, N Hernandez Genes & development 18 (24), 3010-3015, 2004 | 272 | 2004 |
Small nuclear RNA genes: a model system to study fundamental mechanisms of transcription N Hernandez Journal of Biological Chemistry 276 (29), 26733-26736, 2001 | 269 | 2001 |
Population variation and genetic control of modular chromatin architecture in humans SM Waszak, O Delaneau, AR Gschwind, H Kilpinen, SK Raghav, ... Cell 162 (5), 1039-1050, 2015 | 239 | 2015 |
Genome-wide RNA polymerase II profiles and RNA accumulation reveal kinetics of transcription and associated epigenetic changes during diurnal cycles G Le Martelot, D Canella, L Symul, E Migliavacca, F Gilardi, R Liechti, ... PLoS biology 10 (11), e1001442, 2012 | 213 | 2012 |
Targeting TBP to a non-TATA box cis-regulatory element: a TBP-containing complex activates transcription from snRNA promoters through the PSE. CL Sadowski, RW Henry, SM Lobo, N Hernandez Genes & development 7 (8), 1535-1548, 1993 | 212 | 1993 |
Formation of the 3′ end of U1 snRNA is directed by a conserved sequence located downstream of the coding region. N Hernandez The EMBO journal 4 (7), 1827-1837, 1985 | 210 | 1985 |
Defining the RNA polymerase III transcriptome: Genome-wide localization of the RNA polymerase III transcription machinery in human cells D Canella, V Praz, JH Reina, P Cousin, N Hernandez Genome research 20 (6), 710-721, 2010 | 204 | 2010 |
mTORC1 directly phosphorylates and regulates human MAF1 AA Michels, AM Robitaille, D Buczynski-Ruchonnet, W Hodroj, JH Reina, ... Molecular and cellular biology, 2010 | 203 | 2010 |
A TBP complex essential for transcription from TATA-less but not TATA-containing RNA polymerase III promoters is part of the TFIIB fraction SM Lobo, M Tanaka, ML Sullivan, N Hernandez Cell 71 (6), 1029-1040, 1992 | 195 | 1992 |
Activation of the U2 snRNA promoter by the octamer motif defines a new class of RNA polymerase II enhancer elements. M Tanaka, U Grossniklaus, W Herr, N Hernandez Genes & development 2 (12b), 1764-1778, 1988 | 186 | 1988 |
A TBP–TAF complex required for transcription of human snRNA genes by RNA polymerases II and III RW Henry, CL Sadowski, R Kobayashi, N Hernandez Nature 374 (6523), 653-656, 1995 | 180 | 1995 |
The HIV-1 long terminal repeat contains an unusual element that induces the synthesis of short RNAs from various mRNA and snRNA promoters. R Ratnasabapathy, M Sheldon, L Johal, N Hernandez Genes & development 4 (12a), 2061-2074, 1990 | 169 | 1990 |
Different human TFIIIB activities direct RNA polymerase III transcription from TATA-containing and TATA-less promoters L Schramm, PS Pendergrast, Y Sun, N Hernandez Genes & development 14 (20), 2650-2663, 2000 | 167 | 2000 |