Tyler P. Korman, Ph.D.
Affiliations: | 2019- | Invizyne Technologies |
Area:
Molecular Biology, BiochemistryGoogle:
"Tyler Korman"Parents
Sign in to add mentor| Shiou-Chuan Tsai | grad student | 2008 | UC Irvine | |
| (Structural and chemical biology of modification enzymes from the aromatic type II and iterative type I polyketide synthases.) | ||||
| James U. Bowie | post-doc | 2008-2014 | (Chemistry Tree) | |
| James U. Bowie | research scientist | 2014-2019 | (Chemistry Tree) | |
BETA: Related publications
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Publications
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| Sherkhanov S, Korman TP, Chan S, et al. (2020) Isobutanol production freed from biological limits using synthetic biochemistry. Nature Communications. 11: 4292 |
| Valliere MA, Korman TP, Arbing MA, et al. (2020) A bio-inspired cell-free system for cannabinoid production from inexpensive inputs. Nature Chemical Biology |
| Bowie JU, Sherkhanov S, Korman TP, et al. (2020) Synthetic Biochemistry: The Bio-inspired Cell-Free Approach to Commodity Chemical Production. Trends in Biotechnology |
| Valliere MA, Korman TP, Woodall NB, et al. (2019) Author Correction: A cell-free platform for the prenylation of natural products and application to cannabinoid production. Nature Communications. 10: 2363 |
| Valliere MA, Korman TP, Woodall NB, et al. (2019) A cell-free platform for the prenylation of natural products and application to cannabinoid production. Nature Communications. 10: 565 |
| Opgenorth PH, Korman TP, Iancu L, et al. (2017) A molecular rheostat maintains ATP levels to drive a synthetic biochemistry system. Nature Chemical Biology |
| Korman TP, Opgenorth PH, Bowie JU. (2017) A synthetic biochemistry platform for cell free production of monoterpenes from glucose. Nature Communications. 8: 15526 |
| Vinokur JM, Cummins MC, Korman TP, et al. (2016) An Adaptation To Life In Acid Through A Novel Mevalonate Pathway. Scientific Reports. 6: 39737 |
| Opgenorth PH, Korman TP, Bowie JU. (2016) A synthetic biochemistry module for production of bio-based chemicals from glucose. Nature Chemical Biology |
| Sherkhanov S, Korman TP, Clarke SG, et al. (2016) Production of FAME biodiesel in E. coli by direct methylation with an insect enzyme. Scientific Reports. 6: 24239 |