|
|
|
Scott
Christley
Graduate Student
Department of Computer Science and Engineering
206
Cushing
574-631-7596
schristl@nd.edu
http://www.nd.edu/~schristl/ |
|
|
|
Research interests: My primary
research interests include bioinformatics, computational
biology, and formal methods for representing and reasoning about
biological systems. Recent work includes the implementation of
a discrete, multi-scale stochastic model for the behavior of
limb bud precartilage mesenchymal cells in vitro. The model
employs a biologically motivated reaction-diffusion process and
cell-matrix adhesion as the basis of self-organizing pattern
formation of precartilage condensations. Future enhancements to
the model include incorporating the TGF-beta and Notch gene
regulatory network for the reaction-diffusion process and
representing the model using a formal method that allows
reasoning about the properties of the model. |
|
|
|
|
|
 |
|
Trevor
Cickovski
Graduate Student
Department of Computer Science and Engineering
325
Cushing Hall
574-631-3906
tcickovs@nd.edu
http://www.nd.edu/~tcickovs/ |
|
|
|
Research interests: My research
involves programming languages and their application to
computational biology. I specifically am studying
domain-specific languages and their implementation scientific
processes using stochastic methods. Some of these processes
include scripted parallel molecular dynamics, microtubule
modeling, reaction-diffusion equations, and cell-centered
approaches to morphogenesis modeling like the Cellular Potts
Model. My research also involves scientific software
engineering, including the incorporation of domain-specific
languages into larger frameworks. |
|
|
|
|
|
|
|
Richard Gejji
Graduate Student
Department of Mathematics
237
Hayes-Healy
574-631-3741
rgejji@nd.edu
|
|
|
|
Research interests: My research
interest lies in using mathematical analysis and computer
simulations to model and understand complex dynamics. My current
research project is using computer simulations to model how
global warming influences
the evolution of the Colias butterfly and other
butterflies whose flight is weather dependent. Using the results
of the computation model, we can build a continuum model and
make predictions on the spatial patterns of butterfly
populations. |
|
|
|
|
|
 |
|
Ivan
Gregoretti
Graduate Student
Department of Chemistry and Biochemistry
251
Nieuwland Science Hall
574-631-8512
igregore at nd.edu
http://www.nd.edu/~igregore/ |
|
|
|
Research interests: I started
studying the cytoskeleton experimentally followed by studies of
the molecular evolution of the histone deacetilases. My primary
research focus currently is the application of mathematical
tools to understanding the microtubule cytoskeleton. My major
interest is applying mathematical and computational approaches
to obtain answers to the biologically most relevant questions. |
|
|
|
|
|
 |
|
Tanya
Kazakova
Graduate Student
Department of Mathematics
237
Hayes-Healy
574-631-3741
tkazakov@nd.edu
http://www.nd.edu/~tkazakov/ |
|
|
|
Research interests: My primary
research interest is mathematical and computational modeling of
somite formation in vertebrates. In particular, I am looking at
somite formation using three different approaches: the Cellular
Potts model, differential equations with delays and nonlinear
partial differential equations. Another research
interest I have is mathematical education. I am currently
involved in designing and building online tutorials for high
school and undergraduate students to encourage them to explore
the interrelationships between the sciences and mathematics. |
|
|
|
|
|
|
|
Fang
Qi
Graduate Student
Department of Mathematics
253B
Hayes-Healy
574-631-5459
fqi@nd.edu
http://www.nd.edu/~fqi/ |
|
|
|
Research interests: My research
interests involve running mathematical simulations of problems
in biology and comparing the simulation outcomes to the
experimental results. I am currently working on
modeling aggregation of platelets in order to analyze the rules
governing the blood clot formation. I use two models: discrete
and continuous. The discrete model uses Monte-Carlo and energy
methods, while my continuous model involves numerical solution
of partial differential equation. |
|
|
|
|
|
|
|
Matt
Rissler
Graduate Student
Department of Mathematics
235
Hayes-Healy
574-631-3221
mrissler@nd.edu
http://www.nd.edu/~mrissler/ |
|
|
|
Research interests: My current
interests are in the area of collective motion exhibited by
swarming Myxococcus Xanthus, and statistical and imaging
tools to collect data on the motion of individual cells in a
swarm. My current work involves collecting phase contrast
images of M. Xanthus on agar, and developing processing
tools and methods to extract data about individual cells. |
|
|
|
|
|
 |
|
Yilin
Wu
Graduate Student
Department of Physics
336
Nieuwland Science Hall
574-631-6590
ywu1@nd.edu
http://www.nd.edu/~ywu1
|
|
|
|
Research interests: I use
statistical physics and computational tools to study the
self-organization and non-equilibrium behavior in biological
systems. My current research work involves the pattern formation
and collective motion of Myxobacteria, a type of soil microbe. |
|
|
|
|
|
|
|
Jianfeng Zhu
Graduate Student
Department of Mathematics
217
Hayes-Healy
574-631-4861
zhu.17@nd.edu
|
|
|
|
Research interests: My research
involves numerical analysis of reaction-diffusion systems and
their application to the pattern formation in the biological
system. I am interesting in the analysis of Turing parameter
space, the simulation of some pattern formation, such as
dissipative structures, the spiral and scroll waves, and the
biological system with growing domain. |
