George Church

(1954- ) is an American molecular geneticist. He is perhaps one of the most influential scientist in genomics if not the most.

He is currently Professor of Genetics ^[1] at Harvard Medical School and Professor of Health Sciences & Technology ^[2] at Harvard and MIT. With Walter Gilbert he developed the first direct genomic sequencing method in 1984^[3] and helped initiate the Human Genome Project in 1984 ^[4] while he was a Research Scientist at newly-formed Biogen Inc. He invented the broadly-applied concepts of molecular multiplexing and tags^[5], homologous recombination methods ^[6], and DNA array synthesizers. Technology transfer of automated sequencing & software to Genome Therapeutics Corp. resulted in the first commercial genome sequence, (the human pathogen, Helicobacter pylori) in 1994 ^[7]. He initiated the Personal Genome Project (PGP) ^[8] in 2005 and research on synthetic biology. He is director of the U.S. Department of Energy Center on Bioenergy at Harvard & MIT ^[9] and director of the National Institutes of Health (NHGRI) Center of Excellence in Genomic Science at Harvard, MIT & Washington University ^[10]. He has been advisor to 22 companies, most recently co-founding (with Joseph Jacobson, Jay Keasling, and Drew Endy) Codon Devices, a biotech startup dedicated to synthetic biology^[11] and (with Chris Somerville) founding LS9, which is focused on biofuels ^[12]. He is a senior editor for Nature EMBO Molecular Systems Biology.

See also
Personal Genome Project

External links

References

^ HMS Genetics Faculty
^ HST
^ Church GM, Gilbert W (1984). "Genomic Sequencing". Proc Nat Acad Sci USA 81: 1991-5. PMID 6326095.
^ Cook-Deegan RM (1989). "The Alta summit, December 1984". Genomics 5: 661-3. PMID 2613249.
^ Church GM, Kieffer-Higgins S. (1984). "Multiplex Sequencing". Science 240: 185-8. PMID 3353714.
^ Link AJ, Phillips D, Church GM (1997). "Methods for generating precise deletions and insertions in the genome of wild-type Escherichia coli: application to open reading frame characterization". J Bacteriol. 179: 6228-37. PMID 9335267.
^ (1996) "Capitalizing on the genome". Nature Genetics 13: 1. PMID 8673083.[1]
^ Church GM (2005). "The personal genome project". Mol Syst Biol. 1: 0030. PMID 16729065.
^ DOE Genomes to Life Center
^ Centers of Excellence in Genomic Science Awards
^ Herper M (2006). "Photoshop For DNA". Forbes.[2]
^ San Francisco Business Times - March 12, 2007

[_note-0] HMS Genetics Faculty

[_note-HST] HST

[_note-1] Church GM, Gilbert W (1984). "Genomic Sequencing". Proc Nat Acad Sci USA 81: 1991-5. PMID 6326095.

[_note-2] Cook-Deegan RM (1989). "The Alta summit, December 1984". Genomics 5: 661-3. PMID 2613249.

[_note-3] Church GM, Kieffer-Higgins S. (1984). "Multiplex Sequencing". Science 240: 185-8. PMID 3353714.

[_note-4] Link AJ, Phillips D, Church GM (1997). "Methods for generating precise deletions and insertions in the genome of wild-type Escherichia coli: application to open reading frame characterization". J Bacteriol. 179: 6228-37. PMID 9335267.

[_note-NG] (1996) "Capitalizing on the genome". Nature Genetics 13: 1. PMID 8673083.[1]

[_note-5] Church GM (2005). "The personal genome project". Mol Syst Biol. 1: 0030. PMID 16729065.

[_note-6] DOE Genomes to Life Center

[_note-7] Centers of Excellence in Genomic Science Awards

[_note-8] Herper M (2006). "Photoshop For DNA". Forbes.[2]

[_note-9] San Francisco Business Times - March 12, 2007

George Church

External links

References

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