| Ubiquitin-binding domains—from structures to functions I Dikic, S Wakatsuki, KJ Walters Nature reviews Molecular cell biology 10 (10), 659-671, 2009 | 1014 | 2009 |
| Proteasome subunit Rpn13 is a novel ubiquitin receptor K Husnjak, S Elsasser, N Zhang, X Chen, L Randles, Y Shi, K Hofmann, ... Nature 453 (7194), 481-488, 2008 | 752 | 2008 |
| Ubiquitin docking at the proteasome through a novel pleckstrin-homology domain interaction P Schreiner, X Chen, K Husnjak, L Randles, N Zhang, S Elsasser, ... Nature 453 (7194), 548-552, 2008 | 390 | 2008 |
| Rpn1 provides adjacent receptor sites for substrate binding and deubiquitination by the proteasome Y Shi, X Chen, S Elsasser, BB Stocks, G Tian, BH Lee, Y Shi, N Zhang, ... Science 351 (6275), aad9421, 2016 | 274 | 2016 |
| Gates, channels, and switches: elements of the proteasome machine D Finley, X Chen, KJ Walters Trends in biochemical sciences 41 (1), 77-93, 2016 | 273 | 2016 |
| Structural studies of the interaction between ubiquitin family proteins and proteasome subunit S5a KJ Walters, MF Kleijnen, AM Goh, G Wagner, PM Howley Biochemistry 41 (6), 1767-1777, 2002 | 259 | 2002 |
| Structure of S5a bound to monoubiquitin provides a model for polyubiquitin recognition Q Wang, P Young, KJ Walters Journal of molecular biology 348 (3), 727-739, 2005 | 212 | 2005 |
| DNA-repair protein hHR23a alters its protein structure upon binding proteasomal subunit S5a KJ Walters, PJ Lech, AM Goh, Q Wang, PM Howley Proceedings of the National Academy of Sciences 100 (22), 12694-12699, 2003 | 165 | 2003 |
| A bis-benzylidine piperidone targeting proteasome ubiquitin receptor RPN13/ADRM1 as a therapy for cancer RK Anchoori, B Karanam, S Peng, JW Wang, R Jiang, T Tanno, ... Cancer cell 24 (6), 791-805, 2013 | 160 | 2013 |
| Structure of the s5a: k48-linked diubiquitin complex and its interactions with rpn13 N Zhang, Q Wang, A Ehlinger, L Randles, JW Lary, Y Kang, A Haririnia, ... Molecular cell 35 (3), 280-290, 2009 | 153 | 2009 |
| Arylamine N-acetyltransferases: from structure to function E Sim, K Walters, S Boukouvala Drug metabolism reviews 40 (3), 479-510, 2008 | 151 | 2008 |
| Can AlphaFold2 predict the impact of missense mutations on structure? GR Buel, KJ Walters Nature Structural & Molecular Biology 29 (1), 1-2, 2022 | 149 | 2022 |
| Structure of the soluble methane monooxygenase regulatory protein B KJ Walters, GT Gassner, SJ Lippard, G Wagner Proceedings of the National Academy of Sciences 96 (14), 7877-7882, 1999 | 140 | 1999 |
| Structure of proteasome ubiquitin receptor hRpn13 and its activation by the scaffolding protein hRpn2 X Chen, BH Lee, D Finley, KJ Walters Molecular cell 38 (3), 404-415, 2010 | 133 | 2010 |
| Chemical and structural studies provide a mechanistic basis for recognition of the MYC G-quadruplex DR Calabrese, X Chen, EC Leon, SM Gaikwad, Z Phyo, WM Hewitt, ... Nature communications 9 (1), 4229, 2018 | 130 | 2018 |
| Identification by NMR spectroscopy of residues at contact surfaces in large, slowly exchanging macromolecular complexes H Matsuo, KJ Walters, K Teruya, T Tanaka, GT Gassner, SJ Lippard, ... Journal of the American Chemical Society 121 (42), 9903-9904, 1999 | 119 | 1999 |
| Prokaryotic ubiquitin-like protein pup is intrinsically disordered X Chen, WC Solomon, Y Kang, F Cerda-Maira, KH Darwin, KJ Walters Journal of molecular biology 392 (1), 208-217, 2009 | 118 | 2009 |
| Ubiquitin recognition by the DNA repair protein hHR23a Q Wang, AM Goh, PM Howley, KJ Walters Biochemistry 42 (46), 13529-13535, 2003 | 96 | 2003 |
| UBL/UBA ubiquitin receptor proteins bind a common tetraubiquitin chain Y Kang, RA Vossler, LA Diaz-Martinez, NS Winter, DJ Clarke, KJ Walters Journal of molecular biology 356 (4), 1027-1035, 2006 | 95 | 2006 |
| Structures of Rpn1 T1: Rad23 and hRpn13: hPLIC2 reveal distinct binding mechanisms between substrate receptors and shuttle factors of the proteasome X Chen, L Randles, K Shi, SG Tarasov, H Aihara, KJ Walters Structure 24 (8), 1257-1270, 2016 | 79 | 2016 |
