Biomedical Sciences
Brian Kipp
Associate Professor
Biomedical Science Department
228 Padnos Hall
Allendale, Michigan 49401
Phone: 616-331-8546
Fax: 616-331-2090
email: email: kippb@gvsu.edu
See available times here,
or by appointment
COURSES TAUGHT
BMS 100 - Human Health and Disease
BMS 202 - Anatomy/Physiology
BMS 202 - Anatomy/Physiology Laboratory
BMS 290 - Human Physiology
BMS 291 - Human Physiology Laboratory
BMS 310 - Basic Pathophysiology
BMS 375 - Biology of Aging
EDUCATION/TRAINING
Ph.D. Wayne State University, 2001
B.S. Saginaw Valley State University,1994
RESEARCH INTERESTS
Electron/proton transfer mechanisms involved in the regeneration of intravesicular ascorbic acid
PUBLICATIONS
Kipp, BH. Concerted Electron/Proton Transfer: A Concerted Electron/Proton Transfer Mechanism For The Oxidation of Ascorbic Acid. Lambert Academic Publishing, 2010.
Kipp, BH, Faraj, C., Li, G., and Njus, D. (2004) Imidazole facilitates electron transfer from organic reductants, BIOCHEMISTRY 64, 7-13.
Njus D, Wigle M, Kelley PM, Kipp BH, Schlegel HB. Mechanism of ascorbic acid oxidation by cytochrome b(561). BIOCHEMISTRY-US 40 (39): 11905-11911 OCT 2 2001
Kipp BH, Kelley PM, Njus D. Evidence for an essential histidine residue in the ascorbate-binding site of cytochrome b(561). BIOCHEMISTRY-US 40 (13): 3931-3937 APR 3 2001
Kipp BH, Njus D. Possible electron transfer between cytochrome b(561) molecules in chromaffin vesicle membranes. BIOPHYS J 80 (1): 191 Part 2 JAN 2001
Kipp BH, Njus D. Ascorbate protects cytochrome b561 from inactivation by diethylpyrocarbonate modification. BIOPHYS J 78 (1): 1675 Pos Part 2 JAN 2000
Kipp BH, Kelley PM, Njus D. Modification of the ascorbate-binding site of cytochrome b561 by diethylpyrocarbonate. BIOPHYS J 76 (1): A425-A425 Part 2 JAN 1999
Njus D, Kelley PM, Kipp BH, et al. Enzymatic control of electron transfer illustrated by cytochrome b561. BIOPHYS J 74 (2): A79-A79 Part 2 FEB 1998
Page last modified December 1, 2011
