A Sanger/pyrosequencing hybrid approach for the generation of high-quality draft assemblies of marine microbial genomes

Susanne M. D. Goldberg(J. Craig Venter Institute), Justin Johnson(J. Craig Venter Institute), Dana Busam(J. Craig Venter Institute), Tamara V. Feldblyum, Steve Ferriera(J. Craig Venter Institute), Robert Friedman(J. Craig Venter Institute), Aaron L. Halpern(J. Craig Venter Institute), Hoda Khouri, Saul Kravitz(J. Craig Venter Institute), Federico M. Lauro(Scripps Institution of Oceanography), Kelvin Li(J. Craig Venter Institute), Yu-Hui Rogers(J. Craig Venter Institute), Robert L. Strausberg(J. Craig Venter Institute), Granger Sutton(J. Craig Venter Institute), Luke J. Tallon, Torsten Thomas(UNSW Sydney), Eli Venter(J. Craig Venter Institute), M.E. Frazier(J. Craig Venter Institute), J. Craig Venter(J. Craig Venter Institute)
Proceedings of the National Academy of Sciences
July 14, 2006
10.1073/pnas.0604351103
Cited by 289Open Access
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Abstract

Since its introduction a decade ago, whole-genome shotgun sequencing (WGS) has been the main approach for producing cost-effective and high-quality genome sequence data. Until now, the Sanger sequencing technology that has served as a platform for WGS has not been truly challenged by emerging technologies. The recent introduction of the pyrosequencing-based 454 sequencing platform (454 Life Sciences, Branford, CT) offers a very promising sequencing technology alternative for incorporation in WGS. In this study, we evaluated the utility and cost-effectiveness of a hybrid sequencing approach using 3730xl Sanger data and 454 data to generate higher-quality lower-cost assemblies of microbial genomes compared to current Sanger sequencing strategies alone.

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