13 People Results for the Tag: Biosynthetic Pathways
Carsten Krebs
Professor of Chemistry, Professor of Biochemistry and Molecular Biology
Bioinorganic Chemistry - spectroscopic and kinetic studies on the mechanisms of iron-containing enzymes
J. Martin Bollinger
Professor of Chemistry; Professor of Biochemistry and Molecular Biology
Mechanisms of metalloenzymes and metallofactor assembly
Gang Ning
Director, Microscopy Core Facility; Research Professor
Using microscopy and flow cytometry to analyze structures and biochemical properties of cells.
Center for Infectious Disease Dynamics
Squire Booker
Evan Pugh Professor of Chemistry; Professor of Biochemistry and Molecular Biology
Elucidating the chemical mechanisms by which enzymes containing iron-sulfur clusters catalyze chemical reactions. Most ongoing projects deal with members of the Radical S-adenosylmethionine Superfamily, a diverse group of enzymes that employ radical chemistry to catalyze transformations involved in post-transcriptional and post-translational modifications, cofactor biosynthesis, secondary metabolite biosynthesis, and enzyme activation.
Stephen Benkovic
Evan Pugh University Professor and Eberly Chair in Chemistry
Squire Booker
Evan Pugh Professor of Chemistry; Professor of Biochemistry and Molecular Biology
Elucidating the chemical mechanisms by which enzymes containing iron-sulfur clusters catalyze chemical reactions. Most ongoing projects deal with members of the Radical S-adenosylmethionine Superfamily, a diverse group of enzymes that employ radical chemistry to catalyze transformations involved in post-transcriptional and post-translational modifications, cofactor biosynthesis, secondary metabolite biosynthesis, and enzyme activation.
Amie Boal
Professor of Chemistry and of Biochemistry and Molecular Biology
The structural differences between members of large metalloenzyme superfamilies that share common features but promote different reactions or use distinct cofactors.
Ashley Shay
Director, Metabolomics Core Facility
The implementation and expansion of liquid chromatography tandem mass spectrometry for the structural elucidation of novel lipid mediators and metabolites in various inflammatory diseases coupled with diverse cellular and in vivo approaches to determine functionality.