[log in to unmask]" type="cite">Dissertation Defense
Announcement:
To: The George Mason University Community
Candidate: Nuttachat Wisittipanit
Program: PhD Bioinformatics & Computational Biology
Date: Monday March 12, 2012
Time: 10:00 a.m.
Place: George Mason University
Research Bldg, Room 161
Fairfax campus
Dissertation Director: Dr. Huzefa Rangwala
Committee Chair: Dr. Patrick Gillevet
Committee Members: Dr. Jason Kinser, Dr. Dmitri Klimov
Title: "MACHINE LEARNING APPROACH FOR PROFILING HUMAN MICROBIOME"
The dissertation is on reserve in the Johnson Center Library, Fairfax campus.
The doctoral project will not be read at the meeting, but should be read in advance.
All members of the George Mason University community are invited to attend.
ABSTRACT:
Understanding
and
characterizing the roles and variation of the microbial organisms
living within
the human host is the main goal of the international human microbial
research
community. These human flora has shown the ability to harvest otherwise
inaccessible
nutrients, synthesize vitamins and speed up the gut epithelial cell
renewal
process. Successful characterization of the microbial communities will
have
enormous impact towards improved human nutrition, immunity, and medical
treatments. The advent of highly parallel Next Generation DNA
sequencing
technologies (NGS) makes it possible to determine the genomic content
of not
only individual organisms, but entire pools of co-existing species.
Sequencing
of microbial organisms collectively, is referred to as metagenomic and
the
comprehensive characterization of microbes within the human host is
referred to
as the “microbiome”. Using advanced computational approaches,
information about
the microbial functions and community characterizations can be
elucidated from
those complex data.
The research in this area is spearheaded
by the Human Microbiome Project (HMP) initiative at the National
Institute of
Health. The main goal of HMP is to generate resources that enable the
comprehensive characterization of the human microbiota and analysis of
its role
in human health and disease. By combining both the NGS technologies and
traditional approaches for functional analysis, HMP will lay the
foundation for
further studies of human-associated microbial communities. The analysis
of the
deluge of information from the HMP and other similar efforts has opened
a new
field of microbiome research that is in severe need of computational
tools
suitable for many areas of data analysis. The general objective of this
dissertation is to develop advanced computational tools specialized in
the
human microbiome research to characterize the microbial community based
on
sequence data, visualize the community patterns and discover
significant
correlations between microbial taxa and clinical diseases. These tools
are
developed using machine learning approaches that are appropriate for
analyzing
complex microbiome-related datasets due to their ability to extract
underlying
information from the large and noisy data produced in this research
field. In
this dissertation, we specifically develop machine learning tools for
microbiome analysis. The suite of tools includes classification and
clustering
approaches coupled with an easy-to-use web interface made publicly
available.
It is hoped that this work will provide a foundation for further
analysis of
the microbiome.
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