| Molecular basis for the discrimination of repressive methyl-lysine marks in histone H3 by Polycomb and HP1 chromodomains W Fischle, Y Wang, SA Jacobs, Y Kim, CD Allis, S Khorasanizadeh Genes & development 17 (15), 1870-1881, 2003 | 1256 | 2003 |
| Structure of HP1 chromodomain bound to a lysine 9-methylated histone H3 tail SA Jacobs, S Khorasanizadeh Science 295 (5562), 2080-2083, 2002 | 1017 | 2002 |
| The nucleosome: from genomic organization to genomic regulation S Khorasanizadeh Cell 116 (2), 259-272, 2004 | 958 | 2004 |
| Double chromodomains cooperate to recognize the methylated histone H3 tail JF Flanagan, LZ Mi, M Chruszcz, M Cymborowski, KL Clines, Y Kim, ... Nature 438 (7071), 1181-1185, 2005 | 700 | 2005 |
| Identification of heme as the ligand for the orphan nuclear receptors REV-ERBα and REV-ERBβ S Raghuram, KR Stayrook, P Huang, PM Rogers, AK Nosie, DB McClure, ... Nature structural & molecular biology 14 (12), 1207-1213, 2007 | 671 | 2007 |
| Specificity of the HP1 chromo domain for the methylated N‐terminus of histone H3 SA Jacobs, SD Taverna, Y Zhang, SD Briggs, J Li, JC Eissenberg, ... The EMBO journal, 2001 | 523 | 2001 |
| Evidence for a three-state model of protein folding from kinetic analysis of ubiquitin variants with altered core residues S Khorasanizadeh, ID Peters, H Roder Nature structural biology 3 (2), 193-205, 1996 | 462 | 1996 |
| Dual histone H3 methylation marks at lysines 9 and 27 required for interaction with CHROMOMETHYLASE3 AM Lindroth, D Shultis, Z Jasencakova, J Fuchs, L Johnson, D Schubert, ... The EMBO journal 23 (21), 4286-4296, 2004 | 433 | 2004 |
| Nuclear-receptor interactions on DNA-response elements S Khorasanizadeh, F Rastinejad Trends in biochemical sciences 26 (6), 384-390, 2001 | 397 | 2001 |
| The Arabidopsis LHP1 protein colocalizes with histone H3 Lys27 trimethylation X Zhang, S Germann, BJ Blus, S Khorasanizadeh, V Gaudin, ... Nature structural & molecular biology 14 (9), 869-871, 2007 | 361 | 2007 |
| Structural basis for bile acid binding and activation of the nuclear receptor FXR LZ Mi, S Devarakonda, JM Harp, Q Han, R Pellicciari, TM Willson, ... Molecular cell 11 (4), 1093-1100, 2003 | 346 | 2003 |
| Folding and stability of a tryptophan-containing mutant of ubiquitin S Khorasanizadeh, ID Peters, TR Butt, H Roder Biochemistry 32 (27), 7054-7063, 1993 | 311 | 1993 |
| Structure of the RXR–RAR DNA‐binding complex on the retinoic acid response element DR1 F Rastinejad, T Wagner, Q Zhao, S Khorasanizadeh The EMBO journal, 2000 | 262 | 2000 |
| Understanding nuclear receptor form and function using structural biology F Rastinejad, P Huang, V Chandra, S Khorasanizadeh Journal of molecular endocrinology 51 (3), T1-T21, 2013 | 225 | 2013 |
| Beyond the double helix: writing and reading the histone code Y Wang, W Fischle, W Cheung, S Jacobs, S Khorasanizadeh, CD Allis Reversible Protein Acetylation: Novartis Foundation Symposium 259 259, 3-21, 2004 | 219 | 2004 |
| Recognition of trimethyllysine by a chromodomain is not driven by the hydrophobic effect RM Hughes, KR Wiggins, S Khorasanizadeh, ML Waters Proceedings of the National Academy of Sciences 104 (27), 11184-11188, 2007 | 199 | 2007 |
| Centromeric Aurora-B activation requires TD-60, microtubules, and substrate priming phosphorylation SE Rosasco-Nitcher, W Lan, S Khorasanizadeh, PT Stukenberg Science 319 (5862), 469-472, 2008 | 187 | 2008 |
| Structural elements of an orphan nuclear receptor–DNA complex Q Zhao, S Khorasanizadeh, Y Miyoshi, MA Lazar, F Rastinejad Molecular cell 1 (6), 849-861, 1998 | 183 | 1998 |
| The active site of the SET domain is constructed on a knot SA Jacobs, JM Harp, S Devarakonda, Y Kim, F Rastinejad, ... Nature structural biology 9 (11), 833-838, 2002 | 156 | 2002 |
| Specificity of the chromodomain Y chromosome family of chromodomains for lysine-methylated ARK (S/T) motifs W Fischle, H Franz, SA Jacobs, CD Allis, S Khorasanizadeh Journal of Biological Chemistry 283 (28), 19626-19635, 2008 | 132 | 2008 |
