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Vahe Bandarian, Department of Chemistry, The University of Arizona
Photo of Vahe Bandarian

Vahe Bandarian


Assistant Professor of Biochemistry and Molecular Biophysics
Assistant Professor of Chemistry
vahe@email.arizona.edu
BioSciences West 537
Phone: (520) 626-0389
Fax: (520) 621-9288

Honors


  • Burroughs Wellcome Career Award in Biomedical Sciences, 2002

Education and Appointments


  • B.S. 1992, California State University, Los Angeles
  • Ph. D. 1998, University of Wisconsin-Madison
  • Postdoctoral Fellow 1999-2003, University of Michigan, Ann Arbor

Research Interests


  • Biological
  • Bioorganic and Natural Products
  • Catalysis and Reaction Dynamics

Research Summary

Biosynthesis of secondary metabolites; mechanistic enzymology

We will utilize tools of chemistry and of biology to elucidate the biosynthetic pathways by which deazapurine-containing metabolites are produced. Deazapurines are widely distributed in nature and play diverse biological functions, such as cofactors in redox reactions and antimicrobial agents. The goals of the research in my laboratory will be to identify the enzymes that catalyze individual steps in the biosynthetic pathways leading to the deazapurine-containing metabolites and to probe the catalytic mechanisms of these enzymes.

Selected Publications

  • Bandarian, V. and Reed, G. H. (1999) in Vitamin B12- (R. Banerjee, Ed.) John Wiley & Sons, Inc., New York.

  • Bandarian, V. and Reed, G. H. (2000) Kinetic isotope effects in the transient phases of the reaction catalyzed by ethanolamine ammonia-lyase, Biochemistry 39, 12069-12075.

  • Wu, W., Booker, S., Lieder, K. W., Bandarian, V., Reed, G. H. (2000) Lysine 2,3-aminomutase and trans-4,5-dehydrolysine: Characterization of an allylic analogue of a substrate-based radical in the catalytic mechanism, Biochemistry 39, 9561-9570.

  • Abend, A., Bandarian, V., Reed, G. H., and Frey, P. A (2000) Identification of cis- ethanesemidione as the organic radical derived from glycolaldehyde in the suicide inactivation of dioldehydrase and of ethanolamine ammonia-lyase, Biochemistry 39, 6250-6257.

  • Chang, C-w. T., Johnson, D. A., Bandarian, V., Zhou, H., LoBrutto, R., Reed, G. H., and Liu, H.-w. (2000) Characterization of a unique coenzyme B6 radical in the ascarylose biosynthetic pathway, J. Amer. Chem. Soc. 122, 4239-4240.

  • LoBrutto, R., Bandarian, V., Magnusson, O. Th., Chen, X., Schramm, V. L., and Reed, G. H. (2001) 5'-Deoxyadenosine contacts the substrate radical intermediate in the active site of ethanolamine ammonia-lyase:2H and 13C Electron nuclear double resonance studies. Biochemistry 40, 9-14.

  • Miller, J., Bandarian, V., Reed, G. H., and Frey, P. A. (2001) Inhibition of lysine 2,3-aminomutase by the alternative substrate 4-thialysine and characterization of the 4-thialysyl radical intermediate, Arch. Biochem. Biophys. 387, 281-287.

  • Bandarian, V., and Matthews, R. G. (2001) Quantitation of rate enhancements attained by the binding of cobalamin to methionine synthase. Biochemistry 40, 5056-5064.

  • Bandarian, V., Pattridge, K. A., Lennon, B. W., Huddler, D. P., Matthews, R. G., and Ludwig, M. L. (2002) Domain alternation in B12-dependent methionine synthase: Switching to the activation conformation. Nature Struct. Biol. 9, 53-56.

  • Bandarian, V. and Reed, G. H. (2002) Analysis of electron paramagnetic resonance spectrum of a radical intermediate in the coenzyme B12-dependent ethanolamine ammonia-lyase reaction with S-propanolamine, Biochemistry 41, 8580-8588.

  • Bandarian, V., Ludwig, M. L., and Matthews, R. G. (2003) Factors modulating conformational equilibria in large modular proteins: A case study with cobalamin-dependent methionine synthase, Proc. Natl. Acad. Sci. USA 100, 8156-8163.

  • Bandarian, V. and Matthews, R. G. (2003) Measurement of energetics of conformational change in the cobalamin-dependent methionine synthase in Methods in Enzymology, in press.