| Contacting potential mentors for Directed
Research is a good way to develop your professional communication
skills. Some things to keep in mind when contacting a faculty member:
1) Address faculty members using a professional title such as "Dr."
or "Professor;" maintain a courteous demeanor, both in
conversation and tone of voice.
2) Be clear that you are seeking a mentor for research experience
with credit, not looking for paid employment.
3) Explain why you chose to contact that particular laboratory.
4) State your year, major, grade point average, and research interests
and career goals. It is not necessary to have prior laboratory experience,
but it maybe helpful to mention any relevant skills.
5) Contact faculty members in series rather than in parallel. Realize
that faculty receive numerous e-mail requests like yours; they are
likely to delete your e-mail without responding if it appears to
be a mass mailing.
6) Ask whether there may be an opening for you in the laboratory
during a particular semester. If the response is positive, your
next move will be to set up an appointment. Thank the faculty member
for his/her time, and if necessary, accept "no" graciously.
______________________________________________________________________
Below is a partial listing of faculty who have served as instructors
for undergraduate students enrolled in directed research (Nsci 4794/4994)
or directed studies (Nsci 4793W/4993). Your research project or
paper for these courses must be neuroscience related, but you are
not limited to this list in your choice of a mentor. ________________________________________________________________________________
| Primary
Faculty |
Adjunct
Faculty |
 |
Bagrat
Amirikian, Ph.D.
Neural networks and motion.
|
 |
Karen
K. Hsiao Ashe, M.D., Ph.D. Alzheimer's disease, prion diseases,
aging: animal and cellular models. |
|
James
Ashe, M.D.
Neural control of movement.
|
|
Marilyn
E. Carroll, Ph.D.
Behavioral pharmacology, drug dependence, behavioral economics--animal
models. |
|
Linda
M. Boland, Ph.D.
Molecular physiology of ion channels; molecular mechanisms of
synaptic plasticity.
|
|
Esam
E. El-Fakahany, Ph.D.
Neuronal receptor regulation, receptor coupling to second messengers,
aging. |
|
Dale
Branton, Ph.D.
Molecular basis of synaptic transmission.
|
|
William
C. Engeland. Ph.D.
Neuroendocrinology of stress. |
|
Janet
Dubinsky, Ph.D.
Neurotoxicity.
|
|
Carolyn
Fairbanks, Ph.D.
Spinal delivery of analgesics. |
|
Timothy
J. Ebner, M.D., Ph.D.
Neurophysiology of cerebellum and motor cortex.
|
|
S.
Hossein Fatemi, M.D., Ph.D.
Molecular causes of schizophrenia and autism. |
|
Robert
P. Elde, Ph.D.
Neuropeptides in central and peripheral nervous systems.
|
|
Jonathan
Gewirtz, Ph.D.
Biological basis of learning, memory and fear. |
|
Martha
Flanders, Ph.D.
Neural control of movement.
|
|
Christopher
M. Gomez, M.D., Ph.D.
Ion channel disorders and neurodegenerative diseases. |
|
Apostolos
P. Georgopoulos, M.D., Ph.D.
Neurophysiology of motor control and cognition.
|
|
Rolf
Gruetter, Ph.D.
NMR spectroscopy studies. |
|
Glenn
J. Giesler, Jr. Ph.D.
Somatic sensory processing, pain.
|
|
Eric
Javel, Ph.D.
Auditory neurophysiology. |
|
Geoffrey
Ghose, Ph.D.
Strategies in visual cortex. |
|
Steven
Juhn, M.D.
Biochemical pathology of inner ear disorders, effects
of aging on auditory system.
|
|
Christopher
N. Honda, Ph.D.
Anatomical and physiological bases of somesthesis, pain.
|
|
Dae-Shik
Kim, Ph.D.
Neuroimaging and visual neuroscience. |
|
Paulo
Kofuji, Ph.D.
Ion channels.
|
|
Alice
A. Larson, Ph.D.
Substance P and excitatory amino acids in pain. |
|
Lorene
Lanier, Ph.D.
Growth cone motility and axon guidance.
|
|
Allen
S. Levine, Ph.D.
Energy intake and energy expenditure. |
|
Paul
C. Letourneau, Ph.D.
Developmental neurobiology.
|
|
Patrick
W. Mantyh, Ph.D.
Cellular and molecular neurobiology. |
|
Arthur
Leuthold, Ph.D.
Magnetocardiography studies.
|
|
Linda
Kirschen McLoon, Ph.D.
Neuro-ophthalmology--muscle development, injury and regeneration.
|
|
Dezhi
Liao, Ph.D.
Molecular and cellular mechanisms of synaptic plasticity.
|
|
Karen
A. Mesce, Ph.D.
Neural systems and neurodevelopment. |
|
Steven
C. McLoon, Ph.D.
Developmental neurobiology.
|
|
Peter
A. Santi, Ph.D.
Inner ear anatomy, molecular composition and function. |
|
Paul
G. Mermelstein, Ph.D.
Calcium signaling and cellular excitability.
|
|
Donald
A. Simone, Ph.D.
Neural mechanism of pain sensation. |
|
Robert
Miller, M.D
Physiology and neuroscience of vision.
|
|
Peter
W. Sorensen, Ph.D.
Neural coding and function of pheromones. |
|
Yasushi
Nakagawa, M.D., Ph.D.
Cellular and molecular mechanisms of brain development and plasticity.
|
|
Sheldon
Sparber, Ph.D.
Regulation of intracellular Ca2+ concentration, [Ca2+]I, in
neurons and examination of components of this system as potential
pharmacologic targets. |
|
Eric
A. Newman, Ph.D.
Physiology and function of glial cells.
|
|
Kamil
Ugurbil, Ph.D.
Magnetic resonance imaging and spectroscopy studies in cerebral
function and metabolism. |
|
Teresa
Nick, Ph.D.
Neural plasticityand its roles in the modulation of behavior. |
|
|
|
Giuseppe
Pellizzer, Ph.D.
Neural control of cognitivo-motor behavior.
|
|
|
|
Richard
E. Poppele, Ph.D.
Neurophysiology of sensory-motor functions.
|
|
|
|
A.
David Redish, Ph.D.
Spatial reasoning and navigation: From neurons to behavior.
|
|
|
|
Virginia
S. Seybold, Ph.D.
Cellular mechanisms underlying hyperalgesia.
|
|
|
|
John
F. Soechting, Ph.D.
Motor control neurophysiology.
|
|
|
|
Mark
Thomas, Ph.D.
Neurobiology of drug-induced plasticity and addiction, behavioral
neuroscience.
|
|
|
|
Martin
Wessendorf, Ph.D.
Brainstem control of spinal function: Methods of fluorescence
microscopy. |
|
|
|
George
L. Wilcox, Ph.D.
Neurotransmission of pain.
|
|
|
|
Lance
Zirpel, Ph.D.
Cellular and molecular mechanisms of activity-dependent
neural development and survival.
|
|
|
|
