Quality assessment of the human genome sequence
Jeremy Schmutz (),
Jeremy Wheeler,
Jane Grimwood,
Mark Dickson,
Joan Yang,
Chenier Caoile,
Eva Bajorek,
Stacey Black,
Yee Man Chan,
Mirian Denys,
Julio Escobar,
Dave Flowers,
Dea Fotopulos,
Carmen Garcia,
Maria Gomez,
Eidelyn Gonzales,
Lauren Haydu,
Frederick Lopez,
Lucia Ramirez,
James Retterer,
Alex Rodriguez,
Stephanie Rogers,
Angelica Salazar,
Ming Tsai and
Richard M. Myers ()
Additional contact information
Jeremy Schmutz: Stanford University School of Medicine
Jeremy Wheeler: Stanford University School of Medicine
Jane Grimwood: Stanford University School of Medicine
Mark Dickson: Stanford University School of Medicine
Joan Yang: Stanford University School of Medicine
Chenier Caoile: Stanford University School of Medicine
Eva Bajorek: Stanford University School of Medicine
Stacey Black: Stanford University School of Medicine
Yee Man Chan: Stanford University School of Medicine
Mirian Denys: Stanford University School of Medicine
Julio Escobar: Stanford University School of Medicine
Dave Flowers: Stanford University School of Medicine
Dea Fotopulos: Stanford University School of Medicine
Carmen Garcia: Stanford University School of Medicine
Maria Gomez: Stanford University School of Medicine
Eidelyn Gonzales: Stanford University School of Medicine
Lauren Haydu: Stanford University School of Medicine
Frederick Lopez: Stanford University School of Medicine
Lucia Ramirez: Stanford University School of Medicine
James Retterer: Stanford University School of Medicine
Alex Rodriguez: Stanford University School of Medicine
Stephanie Rogers: Stanford University School of Medicine
Angelica Salazar: Stanford University School of Medicine
Ming Tsai: Stanford University School of Medicine
Richard M. Myers: Stanford University School of Medicine
Nature, 2004, vol. 429, issue 6990, 365-368
Abstract:
Abstract As the final sequencing of the human genome has now been completed, we present the results of the largest examination of the quality of the finished DNA sequence. The completed study covers the major contributing sequencing centres and is based on a rigorous combination of laboratory experiments and computational analysis.
Date: 2004
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Persistent link: https://EconPapers.repec.org/RePEc:nat:nature:v:429:y:2004:i:6990:d:10.1038_nature02390
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DOI: 10.1038/nature02390
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