Histone contributions to the structure of DNA in the nucleosome. JJ Hayes, DJ Clark, AP Wolffe Proceedings of the National Academy of Sciences 88 (15), 6829-6833, 1991 | 375 | 1991 |
Electrostatic mechanism of chromatin folding DJ Clark, T Kimura Journal of molecular biology 211 (4), 883-896, 1990 | 330 | 1990 |
A histone octamer can step around a transcribing polymerase without leaving the template VM Studitsky, DJ Clark, G Felsenfeld Cell 76 (2), 371-382, 1994 | 305 | 1994 |
Chromatin structure and gene expression G Felsenfeld, JAN BoYES, JAY Chung, D Clark, V Studitsky Proceedings of the National Academy of Sciences 93 (18), 9384-9388, 1996 | 263 | 1996 |
Alpha‐helix in the carboxy‐terminal domains of histones H1 and H5. DJ Clark, CS Hill, SR Martin, JO Thomas The EMBO journal 7 (1), 69-75, 1988 | 200 | 1988 |
Overcoming a nucleosomal barrier to transcription VM Studitsky, DJ Clark, G Felsenfeld Cell 83 (1), 19-27, 1995 | 198 | 1995 |
Salt-dependent co-operative interaction of histone H1 with linear DNA DJ Clark, JO Thomas Journal of molecular biology 187 (4), 569-580, 1986 | 188 | 1986 |
A nucleosome core is transferred out of the path of a transcribing polymerase DJ Clark, G Felsenfeld Cell 71 (1), 11-22, 1992 | 186 | 1992 |
Formation of nucleosomes on positively supercoiled DNA. DJ Clark, G Felsenfeld The EMBO journal 10 (2), 387-395, 1991 | 160 | 1991 |
The ISW1 and CHD1 ATP-dependent chromatin remodelers compete to set nucleosome spacing in vivo J Ocampo, RV Chereji, PR Eriksson, DJ Clark Nucleic acids research 44 (10), 4625-4635, 2016 | 148 | 2016 |
MNase-sensitive complexes in yeast: nucleosomes and non-histone barriers RV Chereji, J Ocampo, DJ Clark Molecular Cell 65 (3), 565-577. e3, 2017 | 134 | 2017 |
Chromatin assembly on replicating DNA in vitro G Almouzni, DJ Clark, M Méchali, AP Wolffe Nucleic acids research 18 (19), 5767-5774, 1990 | 125 | 1990 |
Regulation of histone gene expression in budding yeast PR Eriksson, D Ganguli, V Nagarajavel, DJ Clark Genetics 191 (1), 7-20, 2012 | 116 | 2012 |
Nucleosome positioning, nucleosome spacing and the nucleosome code DJ Clark Journal of Biomolecular Structure and Dynamics 27 (6), 781-793, 2010 | 102 | 2010 |
RSC-dependent constructive and destructive interference between opposing arrays of phased nucleosomes in yeast D Ganguli, RV Chereji, JR Iben, HA Cole, DJ Clark Genome research 24 (10), 1637-1649, 2014 | 101 | 2014 |
DNA and nucleosomes direct distinct folding of a linker histone H1 C-terminal domain H Fang, DJ Clark, JJ Hayes Nucleic acids research 40 (4), 1475-1484, 2012 | 98 | 2012 |
The centromeric nucleosome of budding yeast is perfectly positioned and covers the entire centromere HA Cole, BH Howard, DJ Clark Proceedings of the National Academy of Sciences 108 (31), 12687-12692, 2011 | 90 | 2011 |
Differences in the binding of H1 variants to DNA DJ CLARK, JO THOMAS European Journal of Biochemistry 178 (1), 225-233, 1988 | 86 | 1988 |
Major determinants of nucleosome positioning RV Chereji, DJ Clark Biophysical journal 114 (10), 2279-2289, 2018 | 85 | 2018 |
Heavy transcription of yeast genes correlates with differential loss of histone H2B relative to H4 and queued RNA polymerases HA Cole, J Ocampo, JR Iben, RV Chereji, DJ Clark Nucleic acids research 42 (20), 12512-12522, 2014 | 82 | 2014 |