M
Michael Ashburner
Researcher at University of Cambridge
Publications - 200
Citations - 41951
Michael Ashburner is an academic researcher from University of Cambridge. The author has contributed to research in topics: Drosophila melanogaster & Gene. The author has an hindex of 81, co-authored 200 publications receiving 39827 citations. Previous affiliations of Michael Ashburner include The Advisory Board Company & European Bioinformatics Institute.
Papers
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Journal ArticleDOI
The genome sequence of Drosophila melanogaster
Mark Raymond Adams,Susan E. Celniker,Robert A. Holt,Cheryl A. Evans,Jeannine D. Gocayne,Peter Amanatides,Steve Scherer,Peter W. Li,Roger A. Hoskins,R. Galle,Reed A. George,Suzanna E. Lewis,Stephen Richards,Michael Ashburner,Scott Henderson,Granger G. Sutton,Jennifer R. Wortman,Mark Yandell,Qing Zhang,Lin Chen,Rhonda C. Brandon,Yu-Hui Rogers,R. Blazej,Mark Champe,Barret D. Pfeiffer,Kenneth H. Wan,Colleen Doyle,E. G. Baxter,Gregg Helt,Catherine R. Nelson,G. L. Gabor Miklos,Josep F. Abril,A. Agbayani,Huijin An,C. Andrews-Pfannkoch,Danita Baldwin,Richard M. Ballew,Anand Basu,James Baxendale,Leyla Bayraktaroglu,Ellen M. Beasley,Karen Beeson,Panayiotis V. Benos,Benjamin P. Berman,D. Bhandari,Slava Bolshakov,Dana Borkova,Michael R. Botchan,John Bouck,Peter Brokstein,Philippe Brottier,Kenneth C. Burtis,Dana A. Busam,Heather Butler,Edouard Cadieu,I. Chandra,J. Michael Cherry,Simon Cawley,Carl Dahlke,Lionel Davenport,P. Davies,B. de Pablos,Arthur L. Delcher,Zuoming Deng,A. Deslattes Mays,Ian M. Dew,Susanne Dietz,Kristina Dodson,Lisa Doup,Michael Downes,Shannon Dugan-Rocha,B. C. Dunkov,Patrick J. Dunn,K. J. Durbin,Carlos Evangelista,Concepcion Ferraz,Steven Ferriera,Wolfgang Fleischmann,Carl Fosler,Andrei Gabrielian,Neha Garg,William M. Gelbart,Kenneth Glasser,A. Glodek,Fangcheng Gong,J. Harley Gorrell,Zhiping Gu,Ping Guan,Michael Harris,Nomi L. Harris,Damon A. Harvey,Thomas J. Heiman,Judith Hernandez,Jarrett Houck,Damon Hostin,K. Houston,Timothy Howland,Ming-Hui Wei,Chinyere Ibegwam,M. Jalali,Francis Kalush,Gary H. Karpen,Zhaoxi Ke,James A. Kennison,K. A. Ketchum,B. E. Kimmel,Chinnappa D. Kodira,Cheryl L. Kraft,Saul A. Kravitz,David Kulp,Zhongwu Lai,Paul Lasko,Yiding Lei,Alexander Levitsky,Jun Li,Zhenya Li,Yunye Liang,Xiaoying Lin,Xiangjun Liu,B. Mattei,Tina C. McIntosh,Michael P. McLeod,D. McPherson,Gennady V. Merkulov,Natalia Milshina,Clark M. Mobarry,J. Morris,A. Moshrefi,Stephen M. Mount,Mee Moy,Brian Murphy,Lee Murphy,Donna M. Muzny,David L. Nelson,David R. Nelson,Keith Nelson,K. Nixon,Deborah R. Nusskern,Joanne Pacleb,Michael J. Palazzolo,G. S. Pittman,Sue Pan,J. Pollard,Vinita Puri,Martin G. Reese,Knut Reinert,Karin A. Remington,Robert D. C. Saunders,Robert D. C. Saunders,F. Scheeler,H. Shen,B. Christopher Shue,Inga Siden-Kiamos,Michael Simpson,Marian P. Skupski,Thomas J. Smith,Eugene G. Spier,Allan C. Spradling,Mark Stapleton,Renee Strong,E. Sun,Robert Svirskas,C. Tector,Russell Turner,Eli Venter,Aihui Wang,Xianyuan Wang,Zhen Yuan Wang,David A. Wassarman,George M. Weinstock,Jean Weissenbach,Sherita Williams,Trevor Woodage,Kim C. Worley,D. Wu,Shih-Hung Yang,Q. Alison Yao,Jane Ye,R. F. Yeh,Jayshree Zaveri,Ming Zhan,Gefei Zhang,Qi Zhao,Liansheng Zheng,Xiangqun Zheng,Fei Zhong,Wenyan Zhong,X. Zhou,Shiaoping C. Zhu,Xiancan Zhu,Hamilton O. Smith,Richard A. Gibbs,Eugene W. Myers,Gerald M. Rubin,J. Craig Venter +194 more
TL;DR: The nucleotide sequence of nearly all of the approximately 120-megabase euchromatic portion of the Drosophila genome is determined using a whole-genome shotgun sequencing strategy supported by extensive clone-based sequence and a high-quality bacterial artificial chromosome physical map.
Journal ArticleDOI
The Gene Ontology (GO) database and informatics resource.
Midori A. Harris,Jennifer I. Clark,Ireland A,Jane Lomax,Michael Ashburner,Michael Ashburner,R. Foulger,R. Foulger,Karen Eilbeck,Karen Eilbeck,Suzanna E. Lewis,Suzanna E. Lewis,B. Marshall,B. Marshall,Christopher J. Mungall,Christopher J. Mungall,J. Richter,J. Richter,Gerald M. Rubin,Gerald M. Rubin,Judith A. Blake,Carol J. Bult,Dolan M,Drabkin H,Janan T. Eppig,Hill Dp,L. Ni,Ringwald M,Rama Balakrishnan,Rama Balakrishnan,J. M. Cherry,J. M. Cherry,Karen R. Christie,Karen R. Christie,Maria C. Costanzo,Maria C. Costanzo,Selina S. Dwight,Selina S. Dwight,Stacia R. Engel,Stacia R. Engel,Dianna G. Fisk,Dianna G. Fisk,Jodi E. Hirschman,Jodi E. Hirschman,Eurie L. Hong,Eurie L. Hong,Robert S. Nash,Robert S. Nash,Anand Sethuraman,Anand Sethuraman,Chandra L. Theesfeld,Chandra L. Theesfeld,David Botstein,David Botstein,Kara Dolinski,Kara Dolinski,Becket Feierbach,Becket Feierbach,Tanya Z. Berardini,Tanya Z. Berardini,S. Mundodi,S. Mundodi,Seung Y. Rhee,Seung Y. Rhee,Rolf Apweiler,Daniel Barrell,Camon E,E. Dimmer,Lee,Rex L. Chisholm,Pascale Gaudet,Pascale Gaudet,Warren A. Kibbe,Warren A. Kibbe,Ranjana Kishore,Ranjana Kishore,Erich M. Schwarz,Erich M. Schwarz,Paul W. Sternberg,Paul W. Sternberg,M. Gwinn,Hannick L,Wortman J,Matthew Berriman,Matthew Berriman,Wood,Wood,de la Cruz N,de la Cruz N,Peter J. Tonellato,Peter J. Tonellato,Pankaj Jaiswal,Pankaj Jaiswal,Seigfried T,Seigfried T,White R,White R +96 more
TL;DR: The Gene Ontology (GO) project as discussed by the authors provides structured, controlled vocabularies and classifications that cover several domains of molecular and cellular biology and are freely available for community use in the annotation of genes, gene products and sequences.
Journal ArticleDOI
The OBO Foundry : coordinated evolution of ontologies to support biomedical data integration
Barry Smith,Michael Ashburner,Cornelius Rosse,Jonathan Bard,William J. Bug,Werner Ceusters,Louis J. Goldberg,Karen Eilbeck,Amelia Ireland,Christopher J. Mungall,Neocles B. Leontis,Philippe Rocca-Serra,Alan Ruttenberg,Susanna-Assunta Sansone,Richard H. Scheuermann,Nigam H. Shah,Patricia L. Whetzel,Suzanna E. Lewis +17 more
TL;DR: This work describes the OBO Foundry initiative and provides guidelines for those who might wish to become involved and describes an expanding family of ontologies designed to be interoperable and logically well formed and to incorporate accurate representations of biological reality.
Book
Drosophila: A Laboratory Handbook
TL;DR: This manual covers three approaches to the field: analysis of neural development, recording and imaging activities in the nervous system, and analysis of behavior.
Journal ArticleDOI
Comparative Genomics of the Eukaryotes
Gerald M. Rubin,Mark Yandell,Jennifer R. Wortman,George L. Gabor,Miklos,Catherine R. Nelson,Iswar K. Hariharan,Mark E. Fortini,Peter W. Li,Rolf Apweiler,Wolfgang Fleischmann,J. Michael Cherry,Steven Henikoff,Marian P. Skupski,Sima Misra,Michael Ashburner,Ewan Birney,Mark S. Boguski,Thomas Brody,Peter Brokstein,Susan E. Celniker,Stephen A. Chervitz,David Coates,Anibal Cravchik,Andrei Gabrielian,Richard F. Galle,William M. Gelbart,Reed A. George,Lawrence S.B. Goldstein,Fangcheng Gong,Ping Guan,Nomi L. Harris,Bruce A. Hay,Roger A. Hoskins,Jiayin Li,Zhenya Li,Richard O. Hynes,Steven J.M. Jones,Peter M. Kuehl,Bruno Lemaitre,J. Troy Littleton,Deborah K. Morrison,Christopher J. Mungall,Patrick H. O'Farrell,Oxana K. Pickeral,Chris Shue,Leslie B. Vosshall,Jiong Zhang,Qi Zhao,Xiangqun H. Zheng,Fei Zhong,Wenyan Zhong,Richard A. Gibbs,J. Craig Venter,Mark Raymond Adams,Suzanna E. Lewis +55 more
TL;DR: The fly has orthologs to 177 of the 289 human disease genes examined and provides the foundation for rapid analysis of some of the basic processes involved in human disease.