Understanding of a global biological network structure by studying its simple
local properties through the well-developed field of graph theory is of interest. In
particular, in this research an observed biological network was explored through a
simulation study. However, one difficulty in such exploration lies on the fitting of
graphical models on biological network data. An Exponential Random Graph Model
(ERGM) was considered to determine estimations of the several network attributes of
complex biological network data. We also compared the estimates of observed network
to our random simulated network for both Markov Chain Monte Carlo Maximum
Likelihood Estimation (MCMCMLE) and Maximum Pseudo Likelihood Estimation
(MPLE) methods under ERGM. The motivation behind this was to determine how
different the observed network could be from a randomly simulated network if the
physical numbers of attributes were approximately same. Cut-off points of some common
attributes of interest for different order of nodes were determined through simulations.
We implemented our method to a known regulatory network database of E. coli. / Department of Mathematical Sciences
| Identifer | oai:union.ndltd.org:BSU/oai:cardinalscholar.bsu.edu:123456789/197173 |
| Date | 04 May 2013 |
| Creators | Saha, Sudipta |
| Contributors | Begum, Munni, 1970- |
| Source Sets | Ball State University |
| Detected Language | English |
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