Life with 6000 genes A Goffeau, BG Barrell, H Bussey, RW Davis, B Dujon, H Feldmann, ... Science 274 (5287), 546-567, 1996 | 6304 | 1996 |
The gene ontology resource: 20 years and still GOing strong Gene Ontology Consortium Nucleic acids research 47 (D1), D330-D338, 2019 | 3587 | 2019 |
Comparative assessment of large-scale data sets of protein–protein interactions C Von Mering, R Krause, B Snel, M Cornell, SG Oliver, S Fields, P Bork Nature 417 (6887), 399-403, 2002 | 3002 | 2002 |
The Gene Ontology resource: enriching a GOld mine Nucleic acids research 49 (D1), D325-D334, 2021 | 2613 | 2021 |
Systematic functional analysis of the yeast genome SG Oliver, MK Winson, DB Kell, F Baganz Trends in biotechnology 16 (9), 373-378, 1998 | 1760 | 1998 |
Expansion of the Gene Ontology knowledgebase and resources Gene Ontology Consortium Nucleic acids research 45 (D1), D331-D338, 2017 | 1746* | 2017 |
Genome sequencing and analysis of the versatile cell factory Aspergillus niger CBS 513.88 HJ Pel, JH de Winde, DB Archer, PS Dyer, G Hofmann, PJ Schaap, ... Nature biotechnology 25 (2), 221-231, 2007 | 1365 | 2007 |
A functional genomics strategy that uses metabolome data to reveal the phenotype of silent mutations LM Raamsdonk, B Teusink, D Broadhurst, N Zhang, A Hayes, MC Walsh, ... Nature biotechnology 19 (1), 45-50, 2001 | 1323 | 2001 |
The complete DNA sequence of yeast chromosome III SG Oliver, QJM van der Aart, ML Agostoni-Carbone, M Aigle, ... Nature 357 (6373), 38-46, 1992 | 1052 | 1992 |
A common open representation of mass spectrometry data and its application to proteomics research PGA Pedrioli, JK Eng, R Hubley, M Vogelzang, EW Deutsch, B Raught, ... Nature biotechnology 22 (11), 1459-1466, 2004 | 968 | 2004 |
Functional genomic hypothesis generation and experimentation by a robot scientist RD King, KE Whelan, FM Jones, PGK Reiser, CH Bryant, SH Muggleton, ... Nature 427 (6971), 247-252, 2004 | 842 | 2004 |
Overview of the yeast genome HW Mewes, K Albermann, M Bähr, D Frishman, A Gleissner, J Hani, ... Nature 387 (6632), 7-8, 1997 | 828 | 1997 |
Mapping pathways and phenotypes by systematic gene overexpression R Sopko, D Huang, N Preston, G Chua, B Papp, K Kafadar, M Snyder, ... Molecular cell 21 (3), 319-330, 2006 | 817 | 2006 |
The automation of science RD King, J Rowland, SG Oliver, M Young, W Aubrey, E Byrne, M Liakata, ... Science 324 (5923), 85-89, 2009 | 763 | 2009 |
Here is the evidence, now what is the hypothesis? The complementary roles of inductive and hypothesis‐driven science in the post‐genomic era DB Kell, SG Oliver Bioessays 26 (1), 99-105, 2004 | 723 | 2004 |
High-throughput classification of yeast mutants for functional genomics using metabolic footprinting J Allen, HM Davey, D Broadhurst, JK Heald, JJ Rowland, SG Oliver, ... Nature biotechnology 21 (6), 692-696, 2003 | 690 | 2003 |
A consensus yeast metabolic network reconstruction obtained from a community approach to systems biology MJ Herrgård, N Swainston, P Dobson, WB Dunn, KY Arga, M Arvas, ... Nature biotechnology 26 (10), 1155-1160, 2008 | 684 | 2008 |
Guilt-by-association goes global S Oliver Nature 403 (6770), 601-602, 2000 | 655 | 2000 |
Metabolic footprinting and systems biology: the medium is the message DB Kell, M Brown, HM Davey, WB Dunn, I Spasic, SG Oliver Nature reviews microbiology 3 (7), 557-565, 2005 | 590 | 2005 |
Gene Ontology annotations and resources Gene Ontology Consortium Nucleic acids research 41 (D1), D530-D535, 2012 | 573 | 2012 |