CARD 2020: antibiotic resistome surveillance with the comprehensive antibiotic resistance database BP Alcock, AR Raphenya, TTY Lau, KK Tsang, M Bouchard, ... Nucleic acids research 48 (D1), D517-D525, 2020 | 2808 | 2020 |
Enhanced annotations and features for comparing thousands of Pseudomonas genomes in the Pseudomonas genome database GL Winsor, EJ Griffiths, R Lo, BK Dhillon, JA Shay, FSL Brinkman Nucleic acids research 44 (D1), D646-D653, 2016 | 1071 | 2016 |
CARD 2023: expanded curation, support for machine learning, and resistome prediction at the Comprehensive Antibiotic Resistance Database BP Alcock, W Huynh, R Chalil, KW Smith, AR Raphenya, MA Wlodarski, ... Nucleic acids research 51 (D1), D690-D699, 2023 | 569 | 2023 |
Expanding fungal pathogenesis: Cryptococcus breaks out of the opportunistic box JW Kronstad, R Attarian, B Cadieux, J Choi, CA D'souza, EJ Griffiths, ... Nature reviews Microbiology 9 (3), 193-203, 2011 | 404 | 2011 |
Expanding the soil antibiotic resistome: exploring environmental diversity VM D’Costa, E Griffiths, GD Wright Current opinion in microbiology 10 (5), 481-489, 2007 | 358 | 2007 |
FoodOn: a harmonized food ontology to increase global food traceability, quality control and data integration DM Dooley, EJ Griffiths, GS Gosal, PL Buttigieg, R Hoehndorf, MC Lange, ... npj Science of Food 2 (1), 23, 2018 | 288 | 2018 |
Rifamycin antibiotic resistance by ADP-ribosylation: structure and diversity of Arr J Baysarowich, K Koteva, DW Hughes, L Ejim, E Griffiths, K Zhang, ... Proceedings of the National Academy of Sciences 105 (12), 4886-4891, 2008 | 205 | 2008 |
Critical issues in bacterial phylogeny RS Gupta, E Griffiths Theoretical population biology 61 (4), 423-434, 2002 | 200 | 2002 |
Cross‐species discovery of syncretic drug combinations that potentiate the antifungal fluconazole M Spitzer, E Griffiths, KM Blakely, J Wildenhain, L Ejim, L Rossi, ... Molecular systems biology 7 (1), 499, 2011 | 193 | 2011 |
Adaptation of Cryptococcus neoformans to mammalian hosts: integrated regulation of metabolism and virulence J Kronstad, S Saikia, ED Nielson, M Kretschmer, W Jung, G Hu, ... Eukaryotic cell 11 (2), 109-118, 2012 | 129 | 2012 |
Prediction of synergism from chemical-genetic interactions by machine learning J Wildenhain, M Spitzer, S Dolma, N Jarvik, R White, M Roy, E Griffiths, ... Cell Systems 1 (6), 383-395, 2015 | 125 | 2015 |
Identification of signature proteins that are distinctive of the Deinococcus-Thermus phylum E Griffiths, RS Gupta International Microbiology 10 (3), 201, 2007 | 102 | 2007 |
Complete and Draft Genome Sequences of Six Members of the Aquificales AL Reysenbach, N Hamamura, M Podar, E Griffiths, S Ferreira, ... Journal of bacteriology 191 (6), 1992-1993, 2009 | 90 | 2009 |
Signature sequences in diverse proteins provide evidence for the late divergence of the Order Aquificales E Griffiths, RS Gupta International Microbiology 7 (1), 41-52, 2004 | 82 | 2004 |
Context is everything: harmonization of critical food microbiology descriptors and metadata for improved food safety and surveillance E Griffiths, D Dooley, M Graham, G Van Domselaar, FSL Brinkman, ... Frontiers in Microbiology 8, 1068, 2017 | 56 | 2017 |
Chlamydiae-specific proteins and indels: novel tools for studies RS Gupta, E Griffiths Trends in microbiology 14 (12), 527-535, 2006 | 54 | 2006 |
BLAST screening of chlamydial genomes to identify signature proteins that are unique for the Chlamydiales, Chlamydiaceae, Chlamydophila and Chlamydia groups of species E Griffiths, MS Ventresca, RS Gupta BMC genomics 7, 1-20, 2006 | 54 | 2006 |
The use of signature sequences in different proteins to determine the relative branching order of bacterial divisions: evidence that Fibrobacter diverged at a similar time to … E Griffiths, RS Gupta Microbiology 147 (9), 2611-2622, 2001 | 51 | 2001 |
Distinctive Protein Signatures Provide Molecular Markers and Evidence for the Monophyletic Nature of the Deinococcus-Thermus Phylum E Griffiths, RS Gupta Journal of bacteriology 186 (10), 3097-3107, 2004 | 48 | 2004 |
Phylogeny and shared conserved inserts in proteins provide evidence that Verrucomicrobia are the closest known free-living relatives of chlamydiae E Griffiths, RS Gupta Microbiology 153 (8), 2648-2654, 2007 | 47 | 2007 |