CATH–a hierarchic classification of protein domain structures CA Orengo, AD Michie, S Jones, DT Jones, MB Swindells, JM Thornton Structure 5 (8), 1093-1109, 1997 | 3395 | 1997 |
InterPro: the integrative protein signature database S Hunter, R Apweiler, TK Attwood, A Bairoch, A Bateman, D Binns, P Bork, ... Nucleic acids research 37 (suppl_1), D211-D215, 2009 | 2243 | 2009 |
The InterPro protein families and domains database: 20 years on M Blum, HY Chang, S Chuguransky, T Grego, S Kandasaamy, A Mitchell, ... Nucleic acids research 49 (D1), D344-D354, 2021 | 1805 | 2021 |
InterPro in 2017—beyond protein family and domain annotations RD Finn, TK Attwood, PC Babbitt, A Bateman, P Bork, AJ Bridge, ... Nucleic acids research 45 (D1), D190-D199, 2017 | 1574 | 2017 |
InterPro in 2019: improving coverage, classification and access to protein sequence annotations AL Mitchell, TK Attwood, PC Babbitt, M Blum, P Bork, A Bridge, SD Brown, ... Nucleic acids research 47 (D1), D351-D360, 2019 | 1518 | 2019 |
The InterPro protein families database: the classification resource after 15 years A Mitchell, HY Chang, L Daugherty, M Fraser, S Hunter, R Lopez, ... Nucleic acids research 43 (D1), D213-D221, 2015 | 1417 | 2015 |
InterPro in 2011: new developments in the family and domain prediction database S Hunter, P Jones, A Mitchell, R Apweiler, TK Attwood, A Bateman, ... Nucleic acids research 40 (D1), D306-D312, 2012 | 1268 | 2012 |
InterPro in 2022 T Paysan-Lafosse, M Blum, S Chuguransky, T Grego, BL Pinto, ... Nucleic acids research 51 (D1), D418-D427, 2023 | 1256 | 2023 |
A large-scale evaluation of computational protein function prediction P Radivojac, WT Clark, TR Oron, AM Schnoes, T Wittkop, A Sokolov, ... Nature methods 10 (3), 221-227, 2013 | 1089 | 2013 |
Protein superfamilles and domain superfolds CA Orengo, DT Jones, JM Thornton Nature 372 (6507), 631-634, 1994 | 1085 | 1994 |
Protein structure alignment WR Taylor, CA Orengo Journal of molecular biology 208 (1), 1-22, 1989 | 922 | 1989 |
Evolution of function in protein superfamilies, from a structural perspective AE Todd, CA Orengo, JM Thornton Journal of molecular biology 307 (4), 1113-1143, 2001 | 877 | 2001 |
One fold with many functions: the evolutionary relationships between TIM barrel families based on their sequences, structures and functions N Nagano, CA Orengo, JM Thornton Journal of molecular biology 321 (5), 741-765, 2002 | 785 | 2002 |
Predicting protein function from sequence and structure D Lee, O Redfern, C Orengo Nature reviews molecular cell biology 8 (12), 995-1005, 2007 | 716 | 2007 |
Transient protein-protein interactions: structural, functional, and network properties JR Perkins, I Diboun, BH Dessailly, JG Lees, C Orengo Structure 18 (10), 1233-1243, 2010 | 625 | 2010 |
New developments in the InterPro database NJ Mulder, R Apweiler, TK Attwood, A Bairoch, A Bateman, D Binns, ... Nucleic acids research 35 (suppl_1), D224-D228, 2007 | 603 | 2007 |
Microarray analysis after RNA amplification can detect pronounced differences in gene expression using limma I Diboun, L Wernisch, CA Orengo, M Koltzenburg BMC genomics 7, 1-14, 2006 | 573 | 2006 |
CATH: comprehensive structural and functional annotations for genome sequences I Sillitoe, TE Lewis, A Cuff, S Das, P Ashford, NL Dawson, N Furnham, ... Nucleic acids research 43 (D1), D376-D381, 2015 | 490 | 2015 |
[36] SSAP: sequential structure alignment program for protein structure comparison CA Orengo, WR Taylor Methods in enzymology 266, 617-635, 1996 | 443 | 1996 |
Protein families and their evolution—a structural perspective CA Orengo, JM Thornton Annu. Rev. Biochem. 74 (1), 867-900, 2005 | 432 | 2005 |