Difference between revisions of "Team:Nagahama/Introduction"
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<p>Wang C, Park JE, Choi ES, Kim SW.(2016).Farnesol production in <em>Escherichia coli</em> through the construction of a farnesol biosynthesis pathway – application of PgpB and YbjG phosphatases. Biotechnology Journal 11(10): 1291–1297</p> | <p>Wang C, Park JE, Choi ES, Kim SW.(2016).Farnesol production in <em>Escherichia coli</em> through the construction of a farnesol biosynthesis pathway – application of PgpB and YbjG phosphatases. Biotechnology Journal 11(10): 1291–1297</p> | ||
<p>Kirby J, Nishimoto M, Chow W. N.R, Baidoo E.E., Wang G, Martin J, … & Keasling J D.(2015).Enhancing Terpene Yield from Sugars via Novel Routes to 1-Deoxy-d-Xylulose 5-Phosphate.Applied and Environmental Microbiology,81(1), 130-138.<p> | <p>Kirby J, Nishimoto M, Chow W. N.R, Baidoo E.E., Wang G, Martin J, … & Keasling J D.(2015).Enhancing Terpene Yield from Sugars via Novel Routes to 1-Deoxy-d-Xylulose 5-Phosphate.Applied and Environmental Microbiology,81(1), 130-138.<p> | ||
Revision as of 09:20, 18 October 2016
REFERENCES
Wang C, Park JE, Choi ES, Kim SW.(2016).Farnesol production in Escherichia coli through the construction of a farnesol biosynthesis pathway – application of PgpB and YbjG phosphatases. Biotechnology Journal 11(10): 1291–1297
Kirby J, Nishimoto M, Chow W. N.R, Baidoo E.E., Wang G, Martin J, … & Keasling J D.(2015).Enhancing Terpene Yield from Sugars via Novel Routes to 1-Deoxy-d-Xylulose 5-Phosphate.Applied and Environmental Microbiology,81(1), 130-138.<p>
