K
Karen Oliver
Researcher at Wellcome Trust Sanger Institute
Publications - 96
Citations - 23738
Karen Oliver is an academic researcher from Wellcome Trust Sanger Institute. The author has contributed to research in topics: Epilepsy & Genome. The author has an hindex of 29, co-authored 85 publications receiving 20772 citations. Previous affiliations of Karen Oliver include Walter and Eliza Hall Institute of Medical Research & University of Melbourne.
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Journal ArticleDOI
Initial sequencing and comparative analysis of the mouse genome.
Robert H. Waterston,Kerstin Lindblad-Toh,Ewan Birney,Jane Rogers,Josep F. Abril,Pankaj K. Agarwal,Richa Agarwala,Rachel Ainscough,Marina Alexandersson,Peter An,Stylianos E. Antonarakis,John Attwood,Robert Baertsch,J Bailey,K F Barlow,Stephan Beck,Eric Berry,Bruce W. Birren,Toby Bloom,Peer Bork,Marc Botcherby,Nicolas Bray,Michael R. Brent,Daniel G. Brown,Daniel G. Brown,Stephen D. Brown,Carol J. Bult,John Burton,Jonathan Butler,R. D. Campbell,Piero Carninci,Simon Cawley,Francesca Chiaromonte,Asif T. Chinwalla,Deanna M. Church,Michele Clamp,C M Clee,Francis S. Collins,Lisa Cook,Richard R. Copley,Alan Coulson,Olivier Couronne,James Cuff,Val Curwen,Tim Cutts,Mark J. Daly,Robert David,Joy Davies,Kimberly D. Delehaunty,Justin Deri,Emmanouil T. Dermitzakis,Colin N. Dewey,Nicholas J. Dickens,Mark Diekhans,Sheila Dodge,Inna Dubchak,Diane M. Dunn,Sean R. Eddy,Laura Elnitski,Richard D. Emes,Pallavi Eswara,Eduardo Eyras,Adam Felsenfeld,Ginger A. Fewell,Paul Flicek,Karen Foley,Wayne N. Frankel,Lucinda Fulton,Robert S. Fulton,Terrence S. Furey,Diane Gage,Richard A. Gibbs,Gustavo Glusman,Sante Gnerre,Nick Goldman,Leo Goodstadt,Darren Grafham,Tina Graves,Eric D. Green,Simon G. Gregory,Roderic Guigó,Mark S. Guyer,Ross C. Hardison,David Haussler,Yoshihide Hayashizaki,Deana W. LaHillier,Angela S. Hinrichs,Wratko Hlavina,Timothy Holzer,Fan Hsu,Axin Hua,Tim Hubbard,Adrienne Hunt,Ian J. Jackson,David B. Jaffe,L. Steven Johnson,Matthew Jones,Thomas A. Jones,A Joy,Michael Kamal,Elinor K. Karlsson,Donna Karolchik,Arkadiusz Kasprzyk,Jun Kawai,Evan Keibler,Cristyn Kells,W. James Kent,Andrew Kirby,Diana L. Kolbe,Ian F Korf,Raju Kucherlapati,Edward J. Kulbokas,David Kulp,Tom Landers,J. P. Leger,Steven Leonard,Ivica Letunic,Rosie Levine,Jia Li,Ming Li,Christine Lloyd,Susan Lucas,Bin Ma,Donna Maglott,Elaine R. Mardis,Lucy Matthews,Evan Mauceli,John Mayer,Megan McCarthy,W. Richard McCombie,Stuart McLaren,Kirsten McLay,John Douglas Mcpherson,James Meldrim,Beverley Meredith,Jill P. Mesirov,Webb Miller,Tracie L. Miner,Emmanuel Mongin,Kate Montgomery,Michael J. Morgan,Richard Mott,James C. Mullikin,Donna M. Muzny,William E. Nash,Joanne O. Nelson,Michael N. Nhan,Robert Nicol,Zemin Ning,Chad Nusbaum,Michael J. O’Connor,Yasushi Okazaki,Karen Oliver,Emma Overton-Larty,Lior Pachter,Genís Parra,Kymberlie H. Pepin,Jane Peterson,Pavel A. Pevzner,Robert W. Plumb,Craig Pohl,Alex Poliakov,Tracy C. Ponce,Chris P. Ponting,Simon C. Potter,Michael A. Quail,Alexandre Reymond,Bruce A. Roe,Krishna M. Roskin,Edward M. Rubin,Alistair G. Rust,Ralph Santos,Victor Sapojnikov,Brian Schultz,Jörg Schultz,Matthias S. Schwartz,Scott Schwartz,Carol Scott,Steven Seaman,Steve Searle,Ted Sharpe,Andrew Sheridan,Ratna Shownkeen,Sarah Sims,Jonathan Singer,Guy Slater,Arian F.A. Smit,Douglas Smith,Brian Spencer,Arne Stabenau,Nicole Stange-Thomann,Charles W. Sugnet,Mikita Suyama,Glenn Tesler,Johanna Thompson,David Torrents,Evanne Trevaskis,John Tromp,Catherine Ucla,Abel Ureta-Vidal,Jade P. Vinson,Andrew von Niederhausern,Claire M. Wade,Melanie M. Wall,R. J. Weber,Robert B. Weiss,Michael C. Wendl,Anthony P. West,Kris A. Wetterstrand,Raymond Wheeler,Simon Whelan,Jamey Wierzbowski,David Willey,Sophie Williams,Richard K. Wilson,Eitan E. Winter,Kim C. Worley,Dudley Wyman,Shan Yang,Shiaw Pyng Yang,Evgeny M. Zdobnov,Michael C. Zody,Eric S. Lander +222 more
TL;DR: The results of an international collaboration to produce a high-quality draft sequence of the mouse genome are reported and an initial comparative analysis of the Mouse and human genomes is presented, describing some of the insights that can be gleaned from the two sequences.
Journal ArticleDOI
The zebrafish reference genome sequence and its relationship to the human genome.
Kerstin Howe,Matthew D. Clark,Carlos Torroja,Carlos Torroja,James Torrance,Camille Berthelot,Matthieu Muffato,John E. Collins,Sean Humphray,Karen McLaren,Lucy Matthews,Stuart McLaren,Ian M Sealy,Mario Caccamo,Carol Churcher,Carol Scott,Jeffrey C. Barrett,Romke Koch,Gerd Jörg Rauch,Simon D. M. White,William Chow,Britt Kilian,Leonor T. Quintais,José Afonso Guerra-Assunção,Yi Zhou,Yong Gu,Jennifer Yen,Jan Hinnerk Vogel,Tina Eyre,Seth Redmond,Ruby Banerjee,Jianxiang Chi,Beiyuan Fu,Elizabeth Langley,Sean Maguire,Gavin K. Laird,D. M. Lloyd,Emma J. Kenyon,Sarah Donaldson,Harminder Sehra,Jeff Almeida-King,Jane E. Loveland,Stephen J. Trevanion,Matthew Jones,Michael A. Quail,Dave Willey,Adrienne Hunt,John Burton,Sarah Sims,Kirsten McLay,Bob Plumb,J. C. Davis,Chris Clee,Karen Oliver,Richard M. Clark,Clare Riddle,David Eliott,Glen Threadgold,Glenn Harden,Darren Ware,Beverly Mortimer,Giselle Kerry,Paul Heath,Benjamin Phillimore,Alan Tracey,N Corby,Matthew Dunn,Christopher M. Johnson,Jonathan Wood,Susan J. Clark,Sarah Pelan,Guy Griffiths,Michelle Smith,Rebecca Glithero,Philip Howden,Nick Barker,Christopher Stevens,Joanna Harley,Karen Holt,Georgios Panagiotidis,J Lovell,Helen Beasley,Carl Henderson,Daria Gordon,Katherine Auger,Debbie E. Wright,Joanna Collins,Claire Raisen,Lauren Dyer,Kenric Leung,Lauren Robertson,Kirsty Ambridge,Daniel Leongamornlert,Sarah McGuire,Ruth Gilderthorp,C Griffiths,Deepa Manthravadi,Sarah Nichol,Gary L A Barker,S. Whitehead,Michael Kay,Jacqueline Brown,Clare Murnane,Emma Gray,Matthew Humphries,N Sycamore,Darren Barker,David S. Saunders,J. M. Wallis,A K Babbage,S Hammond,M Mashreghi-Mohammadi,Lucy Barr,Sancha Martin,Paul Wray,Andrew D. Ellington,Nicholas Matthews,Matthew Ellwood,Rebecca Woodmansey,Graham Clark,James D. Cooper,A Tromans,Darren Grafham,C. D. Skuce,Richard Pandian,Robert Andrews,Elliot Harrison,A M Kimberley,J Garnett,Nigel Fosker,Rebekah Hall,P Garner,Daniel P. Kelly,Christine P. Bird,Sophie Palmer,Ines Gehring,Andrea Berger,Christopher M. Dooley,Christopher M. Dooley,Zübeyde Ersan-Ürün,Cigdem Eser,Horst Geiger,Maria Geisler,Lena Karotki,Anette Kirn,Judith Konantz,Martina Konantz,Martina Oberländer,Silke Rudolph-Geiger,Mathias Teucke,Kazutoyo Osoegawa,Baoli Zhu,Amanda Rapp,Sara Widaa,Cordelia Langford,Fengtang Yang,Nigel P. Carter,Jennifer Harrow,Zemin Ning,Javier Herrero,Steve Searle,Anton J. Enright,Robert Geisler,Robert Geisler,Ronald H.A. Plasterk,Charles Lee,Monte Westerfield,Pieter J. de Jong,Leonard I. Zon,John H. Postlethwait,Christiane Nüsslein-Volhard,Tim Hubbard,Hugues Roest Crollius,Jane Rogers,Derek L. Stemple +174 more
TL;DR: A high-quality sequence assembly of the zebrafish genome is generated, made up of an overlapping set of completely sequenced large-insert clones that were ordered and oriented using a high-resolution high-density meiotic map, providing a clearer understanding of key genomic features such as a unique repeat content, a scarcity of pseudogenes, an enrichment of zebra fish-specific genes on chromosome 4 and chromosomal regions that influence sex determination.
Journal ArticleDOI
Complete genome sequence of the model actinomycete Streptomyces coelicolor A3(2)
Stephen D. Bentley,Keith F. Chater,Ana Cerdeño-Tárraga,Gregory L. Challis,Gregory L. Challis,Nicholas R. Thomson,Keith D. James,David Harris,Michael A. Quail,H. M. Kieser,D. Harper,Alex Bateman,Steve D.M. Brown,Govind Chandra,Carton W. Chen,Mark O. Collins,Ann Cronin,Andrew G. Fraser,Arlette Goble,J. Hidalgo,T. Hornsby,S. Howarth,Chih-Hung Huang,Tobias Kieser,L. Larke,Lee Murphy,Karen Oliver,Susan O'Neil,Ester Rabbinowitsch,Marie-Adèle Rajandream,Kim Rutherford,Simon Rutter,Kathy Seeger,David L. Saunders,Sarah Sharp,R. Squares,S. Squares,K. Taylor,T. Warren,Andreas Wietzorrek,John Woodward,Bart Barrell,Julian Parkhill,David A. Hopwood +43 more
TL;DR: The 8,667,507 base pair linear chromosome of Streptomyces coelicolor is reported, containing the largest number of genes so far discovered in a bacterium.
Journal ArticleDOI
The genome sequence of Schizosaccharomyces pombe
Valerie Wood,R. Gwilliam,Marie-Adèle Rajandream,M. Lyne,Rachel Lyne,A. Stewart,J. Sgouros,N. Peat,Jacqueline Hayles,Stephen Baker,D. Basham,Sharen Bowman,Karen Brooks,D. Brown,Steve D.M. Brown,Tracey Chillingworth,Carol Churcher,Mark O. Collins,R. Connor,Ann Cronin,P. Davis,Theresa Feltwell,Andrew G. Fraser,S. Gentles,Arlette Goble,N. Hamlin,David Harris,J. Hidalgo,Geoffrey M. Hodgson,S. Holroyd,T. Hornsby,S. Howarth,Elizabeth J. Huckle,Sarah E. Hunt,Kay Jagels,Kylie R. James,L. Jones,Matthew Jones,S. Leather,S. McDonald,J. McLean,P. Mooney,Sharon Moule,Karen Mungall,Lee Murphy,D. Niblett,C. Odell,Karen Oliver,Susan O'Neil,D. Pearson,Michael A. Quail,Ester Rabbinowitsch,Kim Rutherford,Simon Rutter,David L. Saunders,Kathy Seeger,Sarah Sharp,Jason Skelton,Mark Simmonds,R. Squares,S. Squares,K. Stevens,K. Taylor,Ruth Taylor,Adrian Tivey,S. Walsh,T. Warren,S. Whitehead,John Woodward,Guido Volckaert,Rita Aert,Johan Robben,B. Grymonprez,I. Weltjens,E. Vanstreels,Michael A. Rieger,M. Schafer,S. Muller-Auer,C. Gabel,M. Fuchs,C. Fritzc,E. Holzer,D. Moestl,H. Hilbert,K. Borzym,I. Langer,Alfred Beck,Hans Lehrach,Richard Reinhardt,Thomas M. Pohl,P. Eger,Wolfgang Zimmermann,H. Wedler,R. Wambutt,Bénédicte Purnelle,André Goffeau,Edouard Cadieu,Stéphane Dréano,Stéphanie Gloux,Valerie Lelaure,Stéphanie Mottier,Francis Galibert,Stephen J. Aves,Z. Xiang,Cherryl Hunt,Karen Moore,S. M. Hurst,M. Lucas,M. Rochet,Claude Gaillardin,Victor A. Tallada,Victor A. Tallada,Andrés Garzón,Andrés Garzón,G. Thode,Rafael R. Daga,Rafael R. Daga,L. Cruzado,Juan Jimenez,Juan Jimenez,Miguel del Nogal Sánchez,F. del Rey,J. Benito,Angel Domínguez,José L. Revuelta,Sergio Moreno,John Armstrong,Susan L. Forsburg,L. Cerrutti,Todd M. Lowe,W. R. McCombie,Ian T. Paulsen,Judith A. Potashkin,G. V. Shpakovski,David W. Ussery,Bart Barrell,Paul Nurse +136 more
TL;DR: The genome of fission yeast (Schizosaccharomyces pombe), which contains the smallest number of protein-coding genes yet recorded for a eukaryote, is sequenced and highly conserved genes important for eukARYotic cell organization including those required for the cytoskeleton, compartmentation, cell-cycle control, proteolysis, protein phosphorylation and RNA splicing are identified.
Journal ArticleDOI
The genome of the kinetoplastid parasite, Leishmania major.
Alasdair Ivens,Christopher S. Peacock,Elizabeth A. Worthey,Lee Murphy,Gautam Aggarwal,Matthew Berriman,Ellen Sisk,Marie-Adèle Rajandream,Ellen Adlem,Rita Aert,Atashi Anupama,Zina Apostolou,Philip Attipoe,Nathalie Bason,Christopher Bauser,Alfred Beck,Stephen M. Beverley,Gabriella Bianchettin,K. Borzym,G. Bothe,Carlo V. Bruschi,Carlo V. Bruschi,Matt Collins,Eithon Cadag,Laura Ciarloni,Christine Clayton,Richard M.R. Coulson,Ann Cronin,Angela K. Cruz,Robert L. Davies,Javier G. De Gaudenzi,Deborah E. Dobson,Andreas Duesterhoeft,Gholam Fazelina,Nigel Fosker,Alberto C.C. Frasch,Audrey Fraser,Monika Fuchs,Claudia Gabel,Arlette Goble,André Goffeau,David Harris,Christiane Hertz-Fowler,Helmut Hilbert,David Horn,Yiting Huang,Sven Klages,Andrew J Knights,Michael Kube,Natasha Larke,Lyudmila Litvin,Angela Lord,Tin Louie,Marco A. Marra,David Masuy,Keith R. Matthews,Shulamit Michaeli,Jeremy C. Mottram,Silke Müller-Auer,Heather Munden,Siri Nelson,Halina Norbertczak,Karen Oliver,Susan O'Neil,Martin Pentony,Thomas M. Pohl,Claire Price,Bénédicte Purnelle,Michael A. Quail,Ester Rabbinowitsch,Richard Reinhardt,Michael A. Rieger,Joel Rinta,Johan Robben,Laura Robertson,Jeronimo C. Ruiz,Simon Rutter,David L. Saunders,Melanie Schäfer,Jacquie Schein,David C. Schwartz,Kathy Seeger,Amber Seyler,Sarah Sharp,Heesun Shin,Dhileep Sivam,Rob Squares,Steve Squares,Valentina Tosato,Christy Vogt,Guido Volckaert,Rolf Wambutt,T. Warren,Holger Wedler,John Woodward,Shiguo Zhou,Wolfgang Zimmermann,Deborah F. Smith,Jenefer M. Blackwell,Kenneth Stuart,Kenneth Stuart,Bart Barrell,Peter J. Myler,Peter J. Myler +103 more
TL;DR: The organization of protein-coding genes into long, strand-specific, polycistronic clusters and lack of general transcription factors in the L. major, Trypanosoma brucei, and Tritryp genomes suggest that the mechanisms regulating RNA polymerase II–directed transcription are distinct from those operating in other eukaryotes, although the trypanosomatids appear capable of chromatin remodeling.