当前位置: X-MOL首页全球导师 海外导师 › CALVO, KIM C.

个人简介

B.A., 1973, The Ohio State University Ph.D., 1981, The Ohio State University Postdoctoral fellow, 1981-1984, Harvard University

研究领域

Bio & Organic Chemistry

Enzyme and Organic Reaction Mechanism We have been studying the reaction catalyzed by the enzyme ketol acid reductoisomerase. This enzyme functions in the biosynthetic pathway of the branched chain amino acids. We determined the kinetic mechanism of the enzyme and studied the chemical mechanism by using a combination of synthetic alternative substrates, kinetic isotope effect studies and the pH dependence of the kinetic parameters for the enzyme reaction. Using DNA cloning, sequencing and site-directed mutagenesis techniques, we were able to identify the specific function that several amino acids have in the catalysis of the reaction. We were able to identify the enzyme region responsible for the binding of the co-substrate NADPH by creating a series of site specific mutations in the enzyme. This mutant enzyme was then studied to determine if the amino acid changes affected the rate of inhibition induced by a slow-tight binding inhibitor. We plan to continue our studies by using stopped-flow kinetic studies to measure the rates of specific steps in the chemical mechanism. We also are studying the mechanisms of several enzymes in the NAD biosynthetic pathway. We have examined quinolinate phosphoribosyl transferase and plan to clone two other enzymes of this pathway. In particular, we plan to use PCR to clone the genes for aspartate oxidase and quinolinate synthase. Once these genes are cloned, we will use molecular biology techniques to over-express the enzymes. Once this is accomplished, we will initiate a mechanistic study of the enzyme catalyzed reactions. In collaboration with Dr. Gerald Koser, we are synthesizing a series of nucleoside analog bis-ketol phosphate triesters. These compounds, by virtue of the triester functionality, are able to deliver nucleotide analog monophosphates to cells. These nucleotide analogs then function as antiviral or anticancer drugs by inhibiting either reverse transcriptase or DNA polymerase.

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Rajula Bhatia Gau, Tanesha Roberts, and K.C. Calvo. Lysine 70 of E. coli Quinolinate Phosphoribosyltransferase is Protected from Chemical Modification by Formation of an Inhibitor Complex, Protein and Peptide Letters, 13, 163-167, 2006. "Synthesis and Anti-HIV-1 Activity of Bis-ketol AZT Monophosphates," Koser, G.; Huang, Y.; Chen, K.; and Calvo, K., J. Chem. Soc. Perkins Trans. 1, 1995, 299-302. "Cloning, Sequencing, Purification and Characterization of Quinolinate Phosphoribosyl Transferase from E. Coli," Bhatia, R., and Calvo, K., Arch. Biochem. Biophys. 1996, 325(2), 270-78. "Bis-Ketol Phosphate Alkyl Triesters: Rate of Initial Ketol Group Hydrolysis," Calvo, K.; Moore, R.; and Koser, G., Tetrahedron Letters, 1996, 37(8), 1169-72.

推荐链接
down
wechat
bug