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The Edison lab develops new approaches in metabolomics and natural products research. Our primary research tool is NMR spectroscopy, but we regularly collaborate with experts in mass spectrometry. A major focus is on data integration between NMR, MS, and other quantitative measurements. We have…
We are an inter-disciplinary research group using concepts and techniques from diverse disciplines including biophysics, biochemistry, and bioinformatics to understand how proteins, the molecular machines of life, work. Our current efforts are focused on protein kinases, a large and diverse…
Selenocysteine, the 21st amino acid, is found in all three domains of life and is inserted at UGA codons. Nature has sophisticated mechanisms to distinguish canonical UGA stop codons from UGA codons designated for Selenocysteine (Sec) insertion. We are interested in…
Our laboratory is interested in the mechanism of metalloproteins involved in radical generation and radical-catalyzed chemical conversions. All of the enzymes being investigated have significant roles in metabolic processes that are essential to human health and some of the enzymes have great…
The work in my laboratory deals with the biosynthesis of heme and it regulation. Heme is an essential cofactor for almost all living organisms and participates in a variety of reactions including the regulation central metabolic processes, oxygen binding and transport and reduction/oxidation…
Research in the Moremen lab focuses on the structure, regulation, and localization of enzymes involved in the biosynthesis, recognition, and catabolism of mammalian glycoproteins. Carbohydrate structures on glycoproteins contribute to many biological recognition events during development,…
Research in the Prestegard laboratory focuses on nuclear magnetic resonance (NMR) methods development and application of those methods to challenging problems involving soluble proteins, membrane proteins, cell-surface carbohydrates, and carbohydrate-protein interactions. Many of these systems…
The three dimensional structures of proteins or protein complexes can provide important clues concerning protein function and mechanism of action on a molecular level. The Rose laboratory is interested in using molecular biology coupled with X-ray crystallography and other biophysical techniques…
The research of my group focuses on understanding the integral steps in the molecular pathways used by plants to synthesize complex polysaccharides. A key area of interest is development of methods to express and analyze recombinant plant enzymes, which has allowed us to investigate plant…
Our research focuses on protein structure and function and protein-protein interactions. We employ an approach combining modern analytical, biophysical and molecular biology techniques, with an emphasis on biomolecular NMR spectroscopy. Our core projects include the study of gene regulation and…
Application of structural biology tools for the structure-function studies of relevant biological macromolecules, which include RNA polymerases, neurophysins and their hormone complexes, glutathione transferases, glutamine binding protein and complex, aldehyde dehydrogenase, augmenter of liver…
Research Areas
Oxygen Sensing
In addition to its role in driving oxidative metabolism, ambient O2 levels carry information of great interest to cells of both unicellular and multicellular organisms. For example, O2 regulates gene expression and modulates ion transport across…
My lab studies the relationship between protein structure and function, and specifically how enzyme activity is regulated. To do this, we use a combination of techniques, including X-ray crystallography, transient and steady state kinetic, sedimentation velocity and other biophysical tools.…
Research in the Woods group examines the relationship between carbohydrate conformation and biological recognition. Areas of particular interest include carbohydrate antigenicity in immunological events, carbohydrate- processing enzymes, and the development of appropriate simulational methods…
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