The power of two: protein dimerization in biology NJ Marianayagam, M Sunde, JM Matthews Trends in biochemical sciences 29 (11), 618-625, 2004 | 729 | 2004 |
Interleukin‐6: Structure‐function relationships RJ Simpson, A Hammacher, DK Smith, JM Matthews, LD Ward Protein science 6 (5), 929-955, 1997 | 522 | 1997 |
Protein–protein interactions in human disease DP Ryan, JM Matthews Current opinion in structural biology 15 (4), 441-446, 2005 | 448 | 2005 |
Zinc fingers‐‐folds for many occasions JM Matthews, M Sunde IUBMB life 54 (6), 351-355, 2002 | 406 | 2002 |
α-Helix stability in proteins: II. Factors that influence stability at an internal position A Horovitz, JM Matthews, AR Fersht Journal of molecular biology 227 (2), 560-568, 1992 | 308 | 1992 |
Structural basis for rodlet assembly in fungal hydrophobins AHY Kwan, RD Winefield, M Sunde, JM Matthews, RG Haverkamp, ... Proceedings of the National Academy of Sciences 103 (10), 3621-3626, 2006 | 291 | 2006 |
GATA2 is required for lymphatic vessel valve development and maintenance J Kazenwadel, KL Betterman, CE Chong, PH Stokes, YK Lee, GA Secker, ... The Journal of clinical investigation 125 (8), 2979-2994, 2015 | 234 | 2015 |
Single versus parallel pathways of protein folding and fractional formation of structure in the transition state. AR Fersht, LS Itzhaki, NF ElMasry, JM Matthews, DE Otzen Proceedings of the National Academy of Sciences 91 (22), 10426-10429, 1994 | 229 | 1994 |
Modifiers of epigenetic reprogramming show paternal effects in the mouse S Chong, N Vickaryous, A Ashe, N Zamudio, N Youngson, S Hemley, ... Nature genetics 39 (5), 614-622, 2007 | 204 | 2007 |
LIM‐domain‐binding protein 1: a multifunctional cofactor that interacts with diverse proteins JM Matthews, JE Visvader EMBO reports 4 (12), 1132-1137, 2003 | 195 | 2003 |
Mechanism of allosteric regulation of transglutaminase 2 by GTP GE Begg, L Carrington, PH Stokes, JM Matthews, MA Wouters, A Husain, ... Proceedings of the National Academy of Sciences 103 (52), 19683-19688, 2006 | 186 | 2006 |
The hydrophobin EAS is largely unstructured in solution and functions by forming amyloid-like structures JP Mackay, JM Matthews, RD Winefield, LG Mackay, RG Haverkamp, ... Structure 9 (2), 83-91, 2001 | 186 | 2001 |
Mutations in MITF and PAX3 Cause “Splashed White” and Other White Spotting Phenotypes in Horses R Hauswirth, B Haase, M Blatter, SA Brooks, D Burger, C Drögemüller, ... PLoS genetics 8 (4), e1002653, 2012 | 184 | 2012 |
Exploring the energy surface of protein folding by structure-reactivity relationships and engineered proteins: observation of Hammond behavior for the gross structure of the … JM Matthews, AR Fersht Biochemistry 34 (20), 6805-6814, 1995 | 163 | 1995 |
Recombinant CLIC1 (NCC27) assembles in lipid bilayers via a pH-dependent two-state process to form chloride ion channels with identical characteristics to those observed in … K Warton, R Tonini, WD Fairlie, JM Matthews, SM Valenzuela, MR Qiu, ... Journal of Biological Chemistry 277 (29), 26003-26011, 2002 | 157 | 2002 |
LIM-domain-only proteins in cancer JM Matthews, K Lester, S Joseph, DJ Curtis Nature Reviews Cancer 13 (2), 111-122, 2013 | 149 | 2013 |
Editing the genome to introduce a beneficial naturally occurring mutation associated with increased fetal globin B Wienert, APW Funnell, LJ Norton, RCM Pearson, LE Wilkinson-White, ... Nature communications 6 (1), 7085, 2015 | 137 | 2015 |
The pathway of arginine catabolism in Giardia intestinalis PJ Schofield, MR Edwards, J Matthews, JR Wilson Molecular and biochemical parasitology 51 (1), 29-36, 1992 | 131 | 1992 |
Protein interactions: is seeing believing? JP Mackay, M Sunde, JA Lowry, M Crossley, JM Matthews Trends in biochemical sciences 32 (12), 530-531, 2007 | 129 | 2007 |
Tandem LIM domains provide synergistic binding in the LMO4: Ldb1 complex JE Deane, DP Ryan, M Sunde, MJ Maher, JM Guss, JE Visvader, ... The EMBO journal 23 (18), 3589-3598, 2004 | 129 | 2004 |