Mathematical Biology Group
Research:
Emerging research within the Department of Mathematical Sciences in Biology is interdisciplinary
with ongoing collaborations in the areas of Neuroscience, Systems Physiology and
Evolutionary Genetics.
The related mathematical research is in ordinary and partial differential equations as well
as dynamical systems, perturbation analysis and scientific computation.
People:
Faculty:
- Donald A. French has two ongoing collaborations
in Neuroscience. He is building a computational model of the synchronized bursting in networks
of cultured cortical neurons with Eric Gruenstein.
He is also investigating ion channel distributions in olfactory cilia
with Steve Kleene.
(french@math.uc.edu)
- Sookkyung Lim uses scientific
computation to study aortic aneurysms and motile behavior of bacteria such as
E. Coli
(limsk@math.uc.edu).
- Tony Leung looks at
predator-prey partial differential equation models.
(Anthony.Leung@UC.EDU)
- Steve Pelikan works on the
genetics and geometry (spatial structure)of small populations and estimating
the origins of hybrids in collaboration with Steve
Rogstadt from Biology. He has also done research in Bioinformatics at P & G.
(Steve.Pelikan@UC.Edu)
Graduate Students:
- Zeynep Teymuroglu is
working on population density methods modeling the spread of alcohol abuse.
- Jiyeon Oh finished her PhD thesis under Dr. French
in May of 2005.
Her research was on exponential Euler approximation techniques in Neuroscience.
- Dorjsuren Badamdorj
finished his thesis in August 2006.
The research was on the determination of CNG and Cl(Ca) channel distributions in
olfactory cilia using computational and analytical techniques.
He now has a visiting position at the University of Delaware.
- Mauricio Osorio is interested in pursuing a PhD in Mathematical Biology.
Undergraduates:
- Sabrina Blakeman was a WISE/REU undergraduate in the Summer of 2003.
She worked on parameter search techniques in Neuroscience.
The Department of Mathematical Sciences also has a strong statistics program and
many of the researchers have interests in the biosciences.
Both Seongho Song and
Xiaodong Lin have already published
in biology journals.
Math Biology Seminar:
We have three very special guest speakers coming this Winter/Spring.
Below is the tentative information on their seminars.
Jim Keener is one of the top mathematical biologists; his talk is
the I.A. and Fannie R. Barnett Lecture for 2007-8.
PhD in Mathematics with emphasis in Mathematical Biology
PhD graduate students interested in doing PhD research in Mathematical Biology need
to fulfill the usual requirements for a PhD in mathematics
(see the department handbook at the
graduate studies webpage for details).
Their curriculum would have an emphasis in applied
mathematics and biology.
Their research would typically be interdisciplinary with at least one faculty member
from a biology or related department involved.
Publications
- DA French and T Lewis, Weak coupling analysis rectifying gap junctions
(in preparation).
- A. Leung and X. Hou, Traveling waves solutions for a competitive
reaction-diffusion system and their asymptotics, to appear in Nonlinear
Analysis, Real World Appl.
- D Edwards and DA French, Perturbation derivation of ligand-gated
ion channel distributions arising in olfaction experimentation
(accepted by J. Math. Biology).
- A. Leung, X. Hou and Y. Li, Exclusive traveling waves for
competitive reaction-diffusion systems and their stabilities, J. Math.
Analysis and Applications, 338 (2008), 902-924.
- DA French and CW Groetsch, Numerical Approximation of Solutions of a
Constrained Integral Equation Arising in Olfaction Experimentation,
J. of Physics: Conference Series 73, (2007), 1-10.
- S Lim and C Peskin, Bent and twisted rod in fluid, in preparation.
- S Lim, A Friedman, and Subha Raman, Mathematical modeling of aortic
aneurysms, in preparation.
- E Jung and S Lim, A three-dimensional mathematical model of valveless pumping,
submitted to Bulletin of Mathematical Biology (2005).
- DA French and E Gruenstein, An Integrate-and-Fire Model for Synchronized
Bursting in a Network of Cultured Cortical Neurons, J. Comp. Neurosci., 21 (2006),
227-241.
- R. Flannery, DA French and S.J. Kleene, Clustering of CNG channels in
the cilia of frog olfactory receptor neurons, Biophys. J., 91 (2006), 179-188.
- DA French, R Flannery, C.W Groetsch, W Krantz, and S Kleene,
Identification of CNG channel distributions in
frog olfactory cilia, Math. Comp. Modelling, 43 (2006), 945-956.
- J Oh and DA French, Error Analysis of a Specialized Numerical Method for
Mathematical Models in Neuroscience, Math. Comp. Model. 43 (2006), 945-956.
- S Lim and CS Peskin, Simulations of the whirling instability by the immersed
boundary method, SIAM Journal on Scientific Computing, Vol. 25, No. 6, pp.
2066-2083 (2004).
- H Lim, S Pelikan and S Rogstad, Genetic diversity among populations and
size classes of buckeyses Aesculus: Hippocastanaceae examined with multilocus
VNTR DNA probes Plant Systematics and Evolution.
- S Pelikan and S Rogstad, Estimating heterozygosity with multilocus probes,
Molecular Biology and Evolution.
- DA French, Identification of a free energy functional in an integro-differential
equation model for neuronal activity, Appl. Math. Lett., 17 (2004), 1047-1051.
- S Lim and CS Peskin, Subcritical bifurcation of a rotating elastic
filament in a viscous fluid by the immersed boundary method, Proceedings
of the Second MIT Conference on Computational Fluid and Solid Mechanics,
pp. 1409-1412 (2003).
- A Leung and B Villa, Bifurcation of reaction-diffusion systems related
to epidemics, (with B. Villa), Proceedings of Nonlinear Diff. Eq. in honor
of A. Lazer, Electronic J. of Diff. Eqs, Conference 5, 2000.
- A Leung and B Villa, Bifurcation of reaction-diffusion systems, application
to epidemics of many species, J. Math. Anal. Appl., 244 (2000), 542-563.