Faculty | Postdoctoral Scholars, Research Associates & Adjunct Faculty | Emeritus | Extension Associates | Staff | Students
|
|
Jim Frazier The Pennsylvania
State University Phone: 814-863-7345 Current Graduate Students: Link to: Center for Chemical Ecology Education: B.S., Ohio State
University, 1966 Department Focus Areas: Chemical Ecology Research: Insect chemoreception; chemically mediated behavior; insect-plant interactions Research Activities & Interests: My research focuses on the structure and functioning of insect chemosensory systems and on chemically mediated behavior, especially the feeding behavior of caterpillars. I am seeking to understand the sensory messages that cause a caterpillar to initiate feeding as well as those that prevent feeding, even in the presence of an acceptable host plant. The key stimuli that caterpillars detect and respond to during the early phases of induced plant defenses are also being investigated. A second area of interest is in the basic sensory transduction machinery that insect chemosensory cells use to operate. We are using pharmacological agents, genetic mutants, and combined electrophysiological and ultra-rapid freezing techniques to investigate the mechanisms of transduction in chemosensory cells. Details of the operating mechanisms of these cells are being used to understand plant induced defenses, design new antifeedant chemicals, and for the development of new detectors for use in Precision Agriculture. Relevant Publications: Mullin,
C.A., S. Chyb, H. Eichenseer, B. Hollister, J. L. Frazier.
1994. Neuroreceptor
mechanisms in insect gustation:
A pharmacological approach.
J. Insect Physiol.
Mullin,
C.A., H. Eichenseer, B. Hollister, S. Chyb, and J. L. Frazier.
1995. GABA/Glycine
meuroreceptors may mediate taste perception of antifeedants
and insecticides in Diabrotica virgifera virgifera.
Pesticide Sci. 43:371-375.
Frazier,
J.L. and S. Chyb. 1995.
Use of feeding inhibitors in insect control.
Chapter 13. In
G. deBoer and R.F. Chapman (eds.), Regulatory
Mechanisms of Insect Feeding.
Chapman and Hall.
364-382.
Chyb,
S., C.A. Mullin, B. Hollister, H. Eichenseer and J.L. Frazier.
1995. Identification
of contact chemosensilla involved in taste mediation of adult
western corn rootworm (Diabrotica
virgifera virgifera LeConte).
J. Chem. Ecol. 21(3):313-329.
Hanson, F.E. J.L. Frazier, J. Stitt, and S. Chyb. 1996. Modeling the insect feeding decision system: a new approach utilizing fuzzy system theory. Entomol. Exptl et Appl. 80:109-112. Stitt,
J.P. R.P. Gaumond, J.L. Frazier, and F.E. Hanson. 1997. An Artificial
Neural Network for Neural Spike Classification. Proceedings
of the IEE 23rd Annual Northeast Bioengineering Conference.
15-16.
Stitt,
J., J.L. Frazier, F.E. Hanson and R. Gaumond. 1998. Insect sensory
action potential classifiers: Functional comparisons of template
matching, principle components analysis, and artificial neural
networks. Chemical Senses. 23(5):531-539.
Stitt,
J.P. R.P. Gaumond, J.L. Frazier, and F.E. Hanson. 1998. Automated
Analysis of Feeding Behavior in Small Animals. Proceedings of
the IEE 24th Annual Northeast Bioengineering Conference.
120-123.
|
|
Penn State | College of Agricultural Sciences | Cooperative Extension | Research Entomology
Home | Research
| Extension | Education Copyright Information This publication is available in alternative media on request. Penn State is committed to affirmative action, equal opportunity, and the diversity of its workforce. This site was design and developed by AgWebDev. Please e-mail us with your questions, comments or suggestions at entomology@psu.edu |
 Last modified Friday, May 16, 2008 13:36 |