CURRICULUM VITA

Hui Wang, Ph.D.

TITLE:

Law student- Case Western Reserve University, 1996-present.

EDUCATION:

B.S., Molecular Biology, University of Science and Technology of China, Hefei, P.R.China, 1982-1987.

Ph.D., Microbiology and Immunology, University of Illinois at Chicago, Chicago, Illinois, 1989-1995.

Postdoctoral research associate, 1995-1996.

TEACHING EXPERIENCE:

Department of Microbiology and Immunology, University of Illinois College of Medicine at Chicago: Microbiology laboratory for medical students, 1990-1991, 1992-1993.

RESEARCH:

Department of Microbiology and Immunology, University of Illinois at Chicago, 1990-1996.

Research Field: Physical interactions among bacterial chemotaxis proteins.

ABSTRACTS:

Wang, H., McNally, D.F., and Matsumura, P.: CheZ complexed by CheAS shows enhanced phosphatase activity on CheY-P. Presented at the second conference of Bacterial Locomotion and Sensory Transduction (BLAST II). Oral presentation. Austin, Texas, January, 1993.

Wang, H., and Matsumura, P.: Reducing conditions affect the ability of CheAS to bind to CheZ and to enhance its phosphatase activity. Presented at the third conference of Bacterial Locomotion and Sensory Transduction (BLAST III). Poster presentation. Austin, Texas, January, 1995.

Wang, H., and Matsumura, P.: Characterization of the physical interactions between CheAS and the other chemotaxis proteins. Presented at the Gordon Research Conference on Sensory Transduction in Microorganisms. Poster presentation. Ventura, California, January, 1996.

PUBLICATIONS:

Ganguli, S., Wang, H., Matsumura, P., and Volz, K.: Uncoupled phosphorylation and activation in bacterial chemotaxis: the 2.1 Å structure of a threonine to isoleucine mutant at position 87 of CheY. J. Biol. Chem. 270: 17386-17393, 1995.

Wang, H., and Matsumura, P.: Characterization of the CheAS/CheZ complex: a specific interaction resulting in enhanced dephosphorylating activity on CheY-P. Mol. Microbiol. 19: 695-703, 1996.

Wang, H., and Matsumura, P.: Characterization of the ternary CheAL/CheAS/CheW signalling complex. To be submitted to Biochemistry for publication, 1996.

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