Metal ions in biological catalysis: from enzyme databases to general principles C Andreini, I Bertini, G Cavallaro, GL Holliday, JM Thornton JBIC Journal of Biological Inorganic Chemistry 13, 1205-1218, 2008 | 1246 | 2008 |
Counting the zinc-proteins encoded in the human genome C Andreini, L Banci, I Bertini, A Rosato Journal of proteome research 5 (1), 196-201, 2006 | 1235 | 2006 |
Zinc through the three domains of life C Andreini, L Banci, I Bertini, A Rosato Journal of proteome research 5 (11), 3173-3178, 2006 | 727 | 2006 |
Metalloproteomes: a bioinformatic approach C Andreini, I Bertini, A Rosato Accounts of chemical research 42 (10), 1471-1479, 2009 | 404 | 2009 |
A bioinformatics view of zinc enzymes C Andreini, I Bertini Journal of inorganic biochemistry 111, 150-156, 2012 | 250 | 2012 |
Occurrence of copper proteins through the three domains of life: a bioinformatic approach C Andreini, L Banci, I Bertini, A Rosato The Journal of Proteome Research 7 (01), 209-216, 2008 | 230 | 2008 |
MetalPDB in 2018: a database of metal sites in biological macromolecular structures V Putignano, A Rosato, L Banci, C Andreini Nucleic acids research 46 (D1), D459-D464, 2018 | 187 | 2018 |
A hint to search for metalloproteins in gene banks C Andreini, I Bertini, A Rosato Bioinformatics 20 (9), 1373-1380, 2004 | 161 | 2004 |
Minimal functional sites allow a classification of zinc sites in proteins C Andreini, I Bertini, G Cavallaro PLoS One 6 (10), e26325, 2011 | 154 | 2011 |
MetalPDB: a database of metal sites in biological macromolecular structures C Andreini, G Cavallaro, S Lorenzini, A Rosato Nucleic acids research 41 (D1), D312-D319, 2012 | 153 | 2012 |
The human iron-proteome C Andreini, V Putignano, A Rosato, L Banci Metallomics 10 (9), 1223-1231, 2018 | 120 | 2018 |
Mycobacterial cells have dual nickel-cobalt sensors: sequence relationships and metal sites of metal-responsive repressors are not congruent DR Campbell, KE Chapman, KJ Waldron, S Tottey, S Kendall, ... Journal of biological chemistry 282 (44), 32298-32310, 2007 | 118 | 2007 |
Predicting zinc binding at the proteome level A Passerini, C Andreini, S Menchetti, A Rosato, P Frasconi BMC bioinformatics 8, 1-13, 2007 | 116 | 2007 |
MACiE: exploring the diversity of biochemical reactions GL Holliday, C Andreini, JD Fischer, SA Rahman, DE Almonacid, ... Nucleic acids research 40 (D1), D783-D789, 2012 | 91 | 2012 |
Non‐heme iron through the three domains of life C Andreini, L Banci, I Bertini, S Elmi, A Rosato Proteins: Structure, Function, and Bioinformatics 67 (2), 317-324, 2007 | 88 | 2007 |
Metal-MACiE: a database of metals involved in biological catalysis C Andreini, I Bertini, G Cavallaro, GL Holliday, JM Thornton Bioinformatics 25 (16), 2088-2089, 2009 | 83 | 2009 |
The cellular economy of the Saccharomyces cerevisiae zinc proteome Y Wang, E Weisenhorn, CW MacDiarmid, C Andreini, M Bucci, J Taggart, ... Metallomics 10 (12), 1755-1776, 2018 | 80 | 2018 |
MetalPredator: a web server to predict iron–sulfur cluster binding proteomes Y Valasatava, A Rosato, L Banci, C Andreini Bioinformatics 32 (18), 2850-2852, 2016 | 67 | 2016 |
HIV-1 tat promotes integrin-mediated HIV transmission to dendritic cells by binding Env spikes and competes neutralization by anti-HIV antibodies P Monini, A Cafaro, IK Srivastava, S Moretti, VA Sharma, C Andreini, ... PLoS One 7 (11), e48781, 2012 | 65 | 2012 |
Multi-metal restriction by calprotectin impacts de novo flavin biosynthesis in Acinetobacter baumannii J Wang, ZR Lonergan, G Gonzalez-Gutierrez, BL Nairn, CN Maxwell, ... Cell chemical biology 26 (5), 745-755. e7, 2019 | 64 | 2019 |