Creation of a Bacterial Cell Controlled by a Chemically Synthesized Genome

Daniel G. Gibson; John I. Glass; Carole Lartigue; Vladimir N. Noskov; Ray-Yuan Chuang; Mikkel A. Algire; Gwynedd A. Benders; Michael Montague; Li Ma; Monzia Moodie; Chuck Merryman; Sanjay Vashee; R. Krishnakumar; Nacyra Assad-Garcia; Cynthia Andrews‐Pfannkoch; Evgeniya A. Denisova; Lei Young; Zhi-Qing Qi; Thomas H. Segall-Shapiro; Christopher H. Calvey; Prashanth P. Parmar; Clyde A. Hutchison; Hamilton O. Smith; J. Craig Venter

doi:10.1126/science.1190719

Creation of a Bacterial Cell Controlled by a Chemically Synthesized Genome

Daniel G. Gibson(J. Craig Venter Institute), John I. Glass(J. Craig Venter Institute), Carole Lartigue(J. Craig Venter Institute), Vladimir N. Noskov(J. Craig Venter Institute), Ray-Yuan Chuang(J. Craig Venter Institute), Mikkel A. Algire(J. Craig Venter Institute), Gwynedd A. Benders(J. Craig Venter Institute), Michael Montague(J. Craig Venter Institute), Li Ma(J. Craig Venter Institute), Monzia Moodie(J. Craig Venter Institute), Chuck Merryman(J. Craig Venter Institute), Sanjay Vashee(J. Craig Venter Institute), R. Krishnakumar(J. Craig Venter Institute), Nacyra Assad-Garcia(J. Craig Venter Institute), Cynthia Andrews‐Pfannkoch(J. Craig Venter Institute), Evgeniya A. Denisova(J. Craig Venter Institute), Lei Young(J. Craig Venter Institute), Zhi-Qing Qi(J. Craig Venter Institute), Thomas H. Segall-Shapiro(J. Craig Venter Institute), Christopher H. Calvey(J. Craig Venter Institute), Prashanth P. Parmar(J. Craig Venter Institute), Clyde A. Hutchison(J. Craig Venter Institute), Hamilton O. Smith(J. Craig Venter Institute), J. Craig Venter(J. Craig Venter Institute)

Science

May 20, 2010

10.1126/science.1190719

Cited by 2,649Open Access

Full Text

Abstract

Let There Be Life The DNA sequence information from thousands of genomes is stored digitally as ones and zeros in computer memory. Now, Gibson et al. (p. 52 , published online 20 May; see the cover; see the Policy Forum by Cho and Relman ) have brought together technologies from the past 15 years to start from digital information on the genome of Mycoplasma mycoides to chemically synthesize the genomic DNA as segments that could then be assembled in yeast and transplanted into the cytoplasm of another organism. A number of methods were also incorporated to facilitate testing and error correction of the synthetic genome segments. The transplanted genome became established in the recipient cell, replacing the recipient genome, which was lost from the cell. The reconstituted cells were able to replicate and form colonies, providing a proof-of-principle for future developments in synthetic biology.

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