| G-quadruplexes and their regulatory roles in biology D Rhodes, HJ Lipps Nucleic acids research 43 (18), 8627-8637, 2015 | 1570 | 2015 |
| The structure of the nucleosome core particle TJ Richmond, JT Finch, B Rushton, D Rhodes, A Klug Nature (London) 311, 532-537, 1984 | 1402 | 1984 |
| Structure of yeast phenylalanine tRNA at 3 Å resolution JD Robertus, JE Ladner, JT Finch, D Rhodes, RS Brown, BFC Clark, ... Nature 250 (5467), 546-551, 1974 | 1173 | 1974 |
| G-quadruplex structures: in vivo evidence and function HJ Lipps, D Rhodes Trends in cell biology 19 (8), 414-422, 2009 | 1011 | 2009 |
| The crystal structure of the estrogen receptor DNA-binding domain bound to DNA: how receptors discriminate between their response elements JWR Schwabe, L Chapman, JT Finch, D Rhodes Cell 75 (3), 567-578, 1993 | 1009 | 1993 |
| Structure of nucleosome core particles of chromatin JT Finch, LC Lutter, D Rhodes, RS Brown, B Rushton, M Levitt, A Klug Nature 269 (5623), 29-36, 1977 | 995 | 1977 |
| ‘Zinc fingers’: a novel protein motif for nucleic acid recognition A Klug, D Rhodes Trends in Biochemical Sciences 12, 464-469, 1987 | 951 | 1987 |
| Telomere end-binding proteins control the formation of G-quadruplex DNA structures in vivo K Paeschke, T Simonsson, J Postberg, D Rhodes, HJ Lipps Nature structural & molecular biology 12 (10), 847-854, 2005 | 712 | 2005 |
| EM measurements define the dimensions of the “30-nm” chromatin fiber: evidence for a compact, interdigitated structure PJJ Robinson, L Fairall, VAT Huynh, D Rhodes Proceedings of the National Academy of Sciences 103 (17), 6506-6511, 2006 | 690 | 2006 |
| A method for genetically installing site-specific acetylation in recombinant histones defines the effects of H3 K56 acetylation H Neumann, SM Hancock, R Buning, A Routh, L Chapman, J Somers, ... Molecular cell 36 (1), 153-163, 2009 | 594 | 2009 |
| Solution structure of the DMA-binding domain of the oestrogen receptor JWR Schwabe, D Neuhaus, D Rhodes Nature 348 (6300), 458-461, 1990 | 588 | 1990 |
| Helical periodicity of DNA determined by enzyme digestion D Rhodes, A Klug Nature 286 (5773), 573-578, 1980 | 494 | 1980 |
| ATR-X syndrome protein targets tandem repeats and influences allele-specific expression in a size-dependent manner MJ Law, KM Lower, HPJ Voon, JR Hughes, D Garrick, V Viprakasit, ... Cell 143 (3), 367-378, 2010 | 488 | 2010 |
| Structure of the ‘30 nm’chromatin fibre: a key role for the linker histone PJJ Robinson, D Rhodes Current opinion in structural biology 16 (3), 336-343, 2006 | 486 | 2006 |
| The crystal structure of a two zinc-finger peptide reveals an extension to the rules for zinc-finger/DNA recognition L Fairall, JWR Schwabe, L Chapman, JT Finch, D Rhodes Nature 366 (6454), 483-487, 1993 | 460 | 1993 |
| Nucleosome repeat length and linker histone stoichiometry determine chromatin fiber structure A Routh, S Sandin, D Rhodes Proceedings of the National Academy of Sciences 105 (26), 8872-8877, 2008 | 439 | 2008 |
| The crystal structure of the DNA-binding domain of yeast RAP1 in complex with telomeric DNA P König, R Giraldo, L Chapman, D Rhodes Cell 85 (1), 125-136, 1996 | 404 | 1996 |
| A low resolution structure for the histone core of the nucleosome A Klug, D Rhodes, J Smith, JT Finch, JO Thomas Nature 287 (5782), 509-516, 1980 | 404 | 1980 |
| 30 nm chromatin fibre decompaction requires both H4-K16 acetylation and linker histone eviction PJJ Robinson, W An, A Routh, F Martino, L Chapman, RG Roeder, ... Journal of molecular biology 381 (4), 816-825, 2008 | 400 | 2008 |
| A crystallographic study of metal-binding to yeast phenylalanine transfer RNA A Jack, JE Landner, D Rhodes, RS Brown, A Klug Journal of molecular biology 111 (3), 315-328, 1977 | 363 | 1977 |