Management of hyperbilirubinemia in the newborn infant 35 or more weeks of gestation American Academy of Pediatrics Subcommittee on Hyperbilirubinemia Pediatrics 114 (1), 297-316, 2004 | 3359 | 2004 |
Crystal structure of the human angiotensin-converting enzyme–lisinopril complex R Natesh, SLU Schwager, ED Sturrock, KR Acharya Nature 421 (6922), 551-554, 2003 | 1016 | 2003 |
ANG mutations segregate with familial and 'sporadic' amyotrophic lateral sclerosis MJ Greenway, PM Andersen, C Russ, S Ennis, S Cashman, C Donaghy, ... Nature genetics 38 (4), 411-413, 2006 | 854 | 2006 |
Eosinophil granule proteins: form and function KR Acharya, SJ Ackerman Journal of Biological Chemistry 289 (25), 17406-17415, 2014 | 535 | 2014 |
Botulinum and tetanus neurotoxins: structure, function and therapeutic utility K Turton, JA Chaddock, KR Acharya Trends in biochemical sciences 27 (11), 552-558, 2002 | 497 | 2002 |
The CCN family of proteins: structure–function relationships KP Holbourn, KR Acharya, B Perbal Trends in biochemical sciences 33 (10), 461-473, 2008 | 484 | 2008 |
Ace revisited: a new target for structure-based drug design KR Acharya, ED Sturrock, JF Riordan, MRW Ehlers Nature Reviews Drug Discovery 2 (11), 891-902, 2003 | 402 | 2003 |
Refined structure of baboon α-lactalbumin at 1.7 Å resolution: Comparison with C-type lysozyme KR Acharya, DI Stuart, NPC Walker, M Lewis, DC Phillips Journal of Molecular Biology 208 (1), 99-127, 1989 | 379 | 1989 |
Structural changes in glycogen phosphorylase induced by phosphorylation SR Sprang, KR Acharya, EJ Goldsmith, DI Stuart, K Varvill, RJ Fletterick, ... Nature 336 (6196), 215-221, 1988 | 373 | 1988 |
Crystal structures of apo-and holo-bovine α-lactalbumin at 2.2-Å resolution reveal an effect of calcium on inter-lobe interactions ED Chrysina, K Brew, KR Acharya Journal of Biological Chemistry 275 (47), 37021-37029, 2000 | 338 | 2000 |
Structural Details on the Binding of Antihypertensive Drugs Captopril and Enalaprilat to Human Testicular Angiotensin I-Converting Enzyme, R Natesh, SLU Schwager, HR Evans, ED Sturrock, KR Acharya Biochemistry 43 (27), 8718-8724, 2004 | 320 | 2004 |
Crystal structure of human α-lactalbumin at 1· 7 Å resolution KR Acharya, J Ren, DI Stuart, DC Phillips, RE Fenna Journal of molecular biology 221 (2), 571-581, 1991 | 285 | 1991 |
Molecular recognition of human angiogenin by placental ribonuclease inhibitor—an X‐ray crystallographic study at 2.0 Å resolution AC Papageorgiou, R Shapiro, KR Acharya The EMBO journal, 1997 | 269 | 1997 |
Crystal structures of guinea-pig, goat and bovine α-lactalbumin highlight the enhanced conformational flexibility of regions that are significant for its action in lactose synthase ACW Pike, K Brew, KR Acharya Structure 4 (6), 691-703, 1996 | 268 | 1996 |
α-Lactalbumin possesses a novel calcium binding loop DI Stuart, KR Acharya, NPC Walker, SG Smith, M Lewis, DC Phillips Nature 324 (6092), 84-87, 1986 | 262 | 1986 |
Structural Basis for the Recognition of Carbohydrates by Human Galectin-7, DD Leonidas, EH Vatzaki, H Vorum, JE Celis, P Madsen, KR Acharya Biochemistry 37 (40), 13930-13940, 1998 | 233 | 1998 |
Structural basis of superantigen action inferred from crystal structure of toxic-shock syndrome toxin-1 KR Acharya, EF Passalacqua, EY Jones, K Harlos, DI Stuart, RD Brehm, ... Nature 367 (6458), 94-97, 1994 | 226 | 1994 |
Angiotensin-converting enzyme-2 (ACE2): comparative modeling of the active site, specificity requirements, and chloride dependence JL Guy, RM Jackson, KR Acharya, ED Sturrock, NM Hooper, AJ Turner Biochemistry 42 (45), 13185-13192, 2003 | 222 | 2003 |
Identification of the protein receptor binding site of botulinum neurotoxins B and G proves the double-receptor concept A Rummel, T Eichner, T Weil, T Karnath, A Gutcaits, S Mahrhold, ... Proceedings of the National Academy of Sciences 104 (1), 359-364, 2007 | 210 | 2007 |
Crystal structure of human angiogenin reveals the structural basis for its functional divergence from ribonuclease. KR Acharya, R Shapiro, SC Allen, JF Riordan, BL Vallee Proceedings of the National Academy of Sciences 91 (8), 2915-2919, 1994 | 205 | 1994 |