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Genome sequencing in microfabricated high-density picolitre reactors
Authors:Margulies Marcel  Egholm Michael  Altman William E  Attiya Said  Bader Joel S  Bemben Lisa A  Berka Jan  Braverman Michael S  Chen Yi-Ju  Chen Zhoutao  Dewell Scott B  Du Lei  Fierro Joseph M  Gomes Xavier V  Godwin Brian C  He Wen  Helgesen Scott  Ho Chun Heen  Ho Chun He  Irzyk Gerard P  Jando Szilveszter C  Alenquer Maria L I  Jarvie Thomas P  Jirage Kshama B  Kim Jong-Bum  Knight James R  Lanza Janna R  Leamon John H  Lefkowitz Steven M  Lei Ming  Li Jing  Lohman Kenton L  Lu Hong  Makhijani Vinod B  McDade Keith E  McKenna Michael P  Myers Eugene W  Nickerson Elizabeth  Nobile John R  Plant Ramona  Puc Bernard P
Affiliation:454 Life Sciences Corp., 20 Commercial Street, Branford, Connecticut 06405, USA.
Abstract:The proliferation of large-scale DNA-sequencing projects in recent years has driven a search for alternative methods to reduce time and cost. Here we describe a scalable, highly parallel sequencing system with raw throughput significantly greater than that of state-of-the-art capillary electrophoresis instruments. The apparatus uses a novel fibre-optic slide of individual wells and is able to sequence 25 million bases, at 99% or better accuracy, in one four-hour run. To achieve an approximately 100-fold increase in throughput over current Sanger sequencing technology, we have developed an emulsion method for DNA amplification and an instrument for sequencing by synthesis using a pyrosequencing protocol optimized for solid support and picolitre-scale volumes. Here we show the utility, throughput, accuracy and robustness of this system by shotgun sequencing and de novo assembly of the Mycoplasma genitalium genome with 96% coverage at 99.96% accuracy in one run of the machine.
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