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Chemistry and BiochemistryChemistry occupies a unique position within the modern sciences. Ultimately, most of the phenomena in the biological, geological, physical, environmental and medical sciences can be expressed in terms of the chemical and physical behavior of atoms and molecules.
226 Science Building
Cheney, WA 99004
Faculty & Staff
The Department of Chemistry and Biochemistry is located on the second floor of the Science Building, on the Cheney campus. The main department office is in SC226 in the Science Building. To obtain answers to questions not covered by this web site, please feel free to contact us by phone or email.
Eric Abbey, PhDAssistant Professor of ChemistryScience Building, SCI 206APhone: 509.359.7476Fax: 509.359.6973Email: email@example.com
Peter Bilous, PhD.Professor of ChemistryScience Building, SCI 193APhone: 509.359.7935Fax: 509.359.6973Email: firstname.lastname@example.org
PHD, McGill University
Research interests include the use of chemical and biochemical tests for the detection of highly degraded biological samples typically found at crime scenes; developing new DNA isolation and DNA typing procedures for the analysis of challenging biological samples. Dr. Bilous is interested in evaluating the capabilities of portable analytical instruments such as the RAMAN spectrometer to identify forensic evidence at crime scenes. Educational interests include the use of problem-based learning approaches to properly prepare students for the challenges of forensic science casework.
Nicholas E. Burgis, PhDAssociate Professor of ChemistryPatterson Hall, PAT 229MPhone: 509.359.7901Fax: 509.359.6973Email: email@example.com
Dr. Burgis was trained in the fields of DNA repair and toxicology. He earned his Ph.D. from The University at Albany, S.U.N.Y. and his post-doctoral training at the Massachusetts Institute of Technology. His research interests focus on understanding certain aspects of nucleotide metabolism, toxicology and drug metabolism using biochemical techniques. His lab is currently investigating the mechanism of substrate specificity and catalysis for the human ITPase enzyme. This enzyme is essential for life in mammals due to its ability to prevent abnormal or damaged DNA/RNA building blocks from being incorporated into nucleic acids. By studying the human ITPase, his lab aims to contribute to the fields of cardiovascular development, purine metabolism, cancer development, ageing and drug metabolism. Techniques used in this research program include molecular cloning, protein purification, biochemical assays (including enzyme kinetics), HPLC and drug sensitivity assays. Dr. Burgis' research program has been supported by external grants from the American Heart Association and American Cancer Society. The current project, entitled "Biochemistry and Modeling of Human ITPase Substrate Specificity Mutants," is in collaboration with Dr. Yao Houndonougbo and is funded by a grant from the National Institutes of Health. He currently serves on the American Chemical Society Biochemistry Examination Committee and as an S-STEM advisor (Co-PI) on a National Science Foundation grant entitled "Increasing the Participation of First-generation and Underrepresented Students in the Sciences."
Gall, A.D., Gall, A, Heid, S. Mori, A., Aune, M., Moore, A.C., and Burgis, N.E. (2013) Analysis of human ITPase nucleobase specificity by site-directed mutagenesis. Biochimie 95(9): 1711-1721.
Sipes, R.K., Xue, X., Lewis, B.S., and Burgis, N.E. (2012) Evidence that aberrant protein metabolism contributes to chemoresistance in multiple myeloma cells. Oncology Reports 27(6): 2031-2038.
Pang, B., McFaline, J.L., Burgis, N.E., Dong, M., Taghizadeh, K., Sullivan, M.R., Elmquist, C.E., Cunningham, R.P., Dedon, P.C. (2012) Defects in purine nucleotide metabolism lead to substantial incorporation of xanthine and hypoxanthine into DNA and RNA. Proceedings of the National Academy of Sciences 109(7):2319-24.
Herting, G., Barber, K., Zappala, M.R., Cunningham R.P. and Burgis, N.E. (2010) Quantitative in vitro and in vivo characterization of the human P32T mutant ITPase. Biochimica Et Biophysica Acta- Molecular Basis for Disease 1802(2): 269-274.
Burgis, N.E. and Samson, L. D. (2007) The protein degradation response of Saccharomyces cerevisiae to classical DNA-damaging agents. Chemical Research in Toxicology, 20(12): 1843-1853.
Burgis, N.E. and Cunningham, R.P. (2007) Substrate specificity of the RdgB protein, a deoxyribonucleoside triphosphate pyrophosphohydrolase. Journal of Biological Chemistry, 282(6): 3531-8.
Burgis, N.E., Brucker, J.J. and Cunningham, R.P. (2003) Repair system for noncanonical purines in Escherichia coli. Journal of Bacteriology, 185(10):3101-10.
Jeffrey A. Corkill, PhD*On leave Winter Quarter 2017*Professor of ChemistryScience Building, SCI 232Phone: 509.359.6518Fax: 509.359.6973Email: firstname.lastname@example.org
PhD, University of Exeter
Jeff Corkill's interests include: the use of gas and liquid chromatography-mass spectrometry in the analysis of organic compounds in (i) smoke derived from agricultural and silvicultural burning practices, (ii) chemical communication between conifer during herbivory, (iii) pesticide residues in organic and conventional food; integration on state-of-the-art chemical laboratory and the development of course internet-based lecture notes.
Mrs. N'vida HoundonougboPart-time Chemistry FacultyScience Building, SCI 297APhone: 509.359.7461Fax: 509.359.6973Email: email@example.com
MS, Organic Chemistry, University of Kansas
BS, Clinical Laboratory, Kansas Medical Center
BS, Chemistry, University of Paris XII (France)
Yao Houndonougbo, PhDAssociate Professor of ChemistryScience Building, SCI 230Phone: 509.359.4332Fax: 509.359.6973Email: firstname.lastname@example.org
Yao Houndonougbo, Assistant Professor, PhD, University of Kansas, Lawrence
Dr. Houndonougbo's research interests involve the use of statistical mechanics, numerical analysis, molecular dynamics amd Monte Carlo simulations, quantum mechanics, protein-protein docking, bioinformatics methods, gas adsorption and storage and protein-protein interactions. Current research projects include:
- The charactization of Zeolitic Imidazolate Frameworks (ZIFs) for gas uptake and storage
- Thermodynamic and transport of carbon dioxide, hydrocarbon and carbon dioxide and hydrocarbon mixtures with zeolit materials
- Structures, dynamics and interactions of the proteins involved in the regulation of calcium in heart muscles
Janelle Jenkins, PhDChemistry LecturerScience Building, SCI224Phone: 509.359.7931Fax: 509.359.6973Email: email@example.comDr. Jenelle Jenkins earned her PhD in chemistry from Arizona State University.
Ashley Lamm, PhD*On leave Winter Quarter 2017*Assistant Professor of ChemistryScience Building, SCI 204APhone: 509.359.7932Fax: 509.359.6973Email: firstname.lastname@example.org
Daniel Love, PhDChemistry LecturerScience Building, SCI 214Phone: 509.359.6138Fax: 509.359.6973Email: email@example.com
Daniel Love, Lecturer, PhD, University of Pittsburgh
Daniel Love's current research and interest lie with the development of lecture demonstrations to promote student understanding of chemical principles. He is also interested in the integration of computer molecular modeling methods into chemical education.
Jamie Manson, PhDProfessor of ChemistryScience Building, SCI 202APhone: 509.359.2878Fax: 509.359.6937Email: firstname.lastname@example.org
Jamie Manson, Associate Professor, PhD, University of Utah
Jamie Manson's research involves design, synthesis and detailed characterization of novel molecule-based quantum magnets that present interesting properties. Coordination chemistry and the self-assembly of 1-, 2- and 3-dimensional polymeric networks that feature strong hydrogen bonds. He conducts x-ray studies of new magnets to understand the structure/property relationships.
Tony Masiello, PhDAssistant Professor of ChemistryScience Building, SCI 228Phone: 509.359.6519Fax: 509.359.6973Email: email@example.com
Dr. Masiello's research interest is focused on utilizing spectroscopic techniques to characterize, detect, and quantify gas phase chemicals. The characterization of chemicals is accomplished through the analysis of high resolution (~0.001 cm-1) infrared and Raman spectra. This analysis yields important information regarding molecular structural parameters such as precise bond lengths and bond angles, as well as yielding information regarding the bonding energy between atoms in a molecule. Chemical concentrations are determined through analysis of low resolution (~0.125 cm-1) infrared spectra and has been used to 1) validate chemical agent detectors, 2) determine temperature dependent vapor pressure and enthalpy of vaporization parameters, as well as 3) determine Henry's Law constants. Addition research interests involve the use of cavity enhanced techniques such as cavity ringdown spectroscopy and integrated cavity output spectroscopy to detect chemicals at trace levels. Current projects involve investigating reaction rates of ozone with anthropogenically produced carbon compounds as well as developing methods that increase the precision to which chemical concentrations are reported.
Amber McConnell, PhDChemistry LecturerScience Building 234APhone: 509-359-2432Fax: 509-359-6973Email: firstname.lastname@example.org
Robin McRae, PhDProfessor of Chemistry, Department ChairScience Building, SCI 222Phone: 509.359.2798Fax: 509.359.6973Email: email@example.com
Robin McRae, Professor, Chair, PhD, University of California, Berkeley
Robin McRae's research covers many theoretical aspects of chemical physics of liquids. Specific research topics include theory of first-order phase transitions (particularly freezing), dynamics of solvated reactions, kinetic theory of liquids and the kinetics of phase transitions (e.g. nucleation theory). Use of computers in chemistry, both for computation and experiment interface is also an area of interest.
Jeffrey A. Rahn, PhDProfessor of ChemistryScience Building, SCI 218Phone: 509.359.6069Fax: 509.359.6973Email: firstname.lastname@example.org
Jeffrey A. Rahn, Professor, PhD, University of Nevada-Reno
Jeffrey Rahn's interests include the synthesis and characterization of transition metal complexes to better understand structure/reactivity relationships, the synthesis of inorganic polymers as precursors to ceramic materials and the development of chemical demonstrations to aid student understanding of chemical principles.
Kenneth W. Raymond, PhDProfessor of ChemistryScience Building, SCI 220Phone: 509.359.6520Fax: 509.359.6973Email: email@example.com
Kenneth W. Raymond, Professor, PhD, University of Washington
Kenneth Raymond's interests lie in the investigation of bistability and oscillations in enzymatic reactions.
Wes E. Steiner, PhDAssociate Professor of ChemistryScience Building, SCI 216Phone: 509.359.6521Fax: 509.359.6973Email: firstname.lastname@example.org
Dr. Steiner earned his Ph.D. in Analytical Chemistry with focus on the development and use of analytical instrumentation to explore a variety of topics involving health, environment, agriculture, and defense. Presently his research group is interested in applications that are focused on the qualitative discovery and quantitative directed analysis of bio-markers that can be correlated to a specific disease trait, state, and/or rate. This in turn, has helped to facilitate the process for an earlier and more precise diagnosis, treatment, and possible prevention of that disease.