Add to ORKGTerpene synthases synthesize highly complex natural products from linear isoprenoid starting molecules. These products often have a wide variety of applications spanning multiple industries. In order to unravel the production pathway of these important compounds, macromolecular crystallography via structural biology techniques can yield enzyme crystal structures. These crystal structures provide snapshots of biocatalysis, often providing clues to support a proposed chemical mechanism when combined with computational modeling. Through studying crystal structures of geranylgeranylglyceryl phosphate synthase, epi-Isozizaene synthase, sesquisabinene synthase, and cucumene synthase, this work aims to further the mechanistic understanding of the ...
The enormous diversity of terpenes found in nature is generated by enzymes known as terpene synthase...
Terpenoids represent the largest class of natural products with a diverse array of structures and fu...
University of Minnesota Ph.D. dissertation. January 2014. Major: Biochemistry, Molecular Bio, and Bi...
Terpene synthases synthesize highly complex natural products from linear isoprenoid starting molecul...
Terpene synthases synthesize highly complex natural products from linear isoprenoid starting molecul...
Terpene synthases/cyclases yield core structures of some of the most valuable bioactive molecules, s...
Natural products are chemical compounds that are synthesized by living organisms and have biological...
Terpene cyclases convert acyclic isoprenoid precursors into complex cyclic terpenoid compounds. Hydr...
Terpenoids have a wide range of applications in the pharmaceutical, agrochemical, perfume, pigment a...
Terpene cyclase enzymes catalyze the most complex chemical reactions found in nature, forming produc...
Terpenes represent the largest and structurally most diverse group of natural products. Since ancien...
Plant sesquiterpene synthases catalyze the conversion of the linear substrate farnesyl diphosphate, ...
The complexity of terpenoid natural products has drawn significant interest, particularly since thei...
Complex secondary metabolites display diverse biological activities and together with their derivati...
Terpenes consist of the most chemically diverse class of natural products and have an incredible sco...
The enormous diversity of terpenes found in nature is generated by enzymes known as terpene synthase...
Terpenoids represent the largest class of natural products with a diverse array of structures and fu...
University of Minnesota Ph.D. dissertation. January 2014. Major: Biochemistry, Molecular Bio, and Bi...
Terpene synthases synthesize highly complex natural products from linear isoprenoid starting molecul...
Terpene synthases synthesize highly complex natural products from linear isoprenoid starting molecul...
Terpene synthases/cyclases yield core structures of some of the most valuable bioactive molecules, s...
Natural products are chemical compounds that are synthesized by living organisms and have biological...
Terpene cyclases convert acyclic isoprenoid precursors into complex cyclic terpenoid compounds. Hydr...
Terpenoids have a wide range of applications in the pharmaceutical, agrochemical, perfume, pigment a...
Terpene cyclase enzymes catalyze the most complex chemical reactions found in nature, forming produc...
Terpenes represent the largest and structurally most diverse group of natural products. Since ancien...
Plant sesquiterpene synthases catalyze the conversion of the linear substrate farnesyl diphosphate, ...
The complexity of terpenoid natural products has drawn significant interest, particularly since thei...
Complex secondary metabolites display diverse biological activities and together with their derivati...
Terpenes consist of the most chemically diverse class of natural products and have an incredible sco...
The enormous diversity of terpenes found in nature is generated by enzymes known as terpene synthase...
Terpenoids represent the largest class of natural products with a diverse array of structures and fu...
University of Minnesota Ph.D. dissertation. January 2014. Major: Biochemistry, Molecular Bio, and Bi...