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Type of Document Dissertation Author Liu, Wenlei , Author's Email Address wliu6@unity.ncsu.edu URN etd-07192002-100823 Title DEVELOPMENT OF LINKAGE AND ASSOCIATION METHODS TO MAP DISEASE GENES Degree PhD Graduate Program Bioinformatics Advisory Committee
Advisor Name Title Bruce S. Weir Committee Chair Dahlia M. Nielsen Committee Member Gregory C. Gibson Committee Member Zhao-Bang Zeng Committee Member Keywords
- affected sib pair
- association
- linkage
- QTL
Date of Defense 2002-07-15 Availability unrestricted Abstract LIU, WENLEI. DEVELOPMENT OF LINKAGE AND ASSOCIATION METHODS TO MAP DISEASE GENES. (Advisor: Dr. Bruce S. Weir)
Identification of disease susceptibility genes is one of the primary aims of contemporary genetic research. With the recent development in molecular biology techniques, large-scale gene
mapping with a dense genome-spanning set of markers becomes a reality. The availability of markers throughout the genome has made linkage and association studies more feasible. In the first chapter, we review many linkage and association methods and point out the potential problems with current linkage and association
analysis. In the second chapter, we modify two identity-by-state (IBS) test statistics of Lange (Lange K. 1986a, A test statistic for the affected-sib-set method. Annals of Human Genetics
50, 283--290; Lange K. 1986b, The affected sib-pair method using identity by descent relations. American Journal of Human Genetics 39, 148--150.) to allow for inbreeding in the population. We evaluate the power and false positive rates of
the modified tests under three disease models using simulated data. When the population inbreeding coefficient is large, both the false positive rates and power are reduced when the modified test statistics were applied, although power remained high under a recessive disease model. Allowing for inbreeding is therefore
appropriate at least for diseases known to be recessive. In the third chapter, we compute the proportions of affected sib pairs sharing 0, 1 and 2 marker alleles identity-by-decent (IBD) in an inbred population and express them in terms of higher order decent measures. We perform two consistency checks on the identity state
probabilities and the two consistency checks verify our calculations. We did the same thing for affected sib pairs from first cousin marriage in an inbred population. In the fourth chapter, we study linkage and linkage disequilibrium (LD)
simultaneously for single QTL using family data in an attempt to increase mapping resolution and reduce false positive rates. We estimate QTL allele frequencies, LD and recombination factions
between the marker loci and the QTL locus and the QTL model parameters using an EM algorithm. After performing single analysis, we extend our model to study two marker loci simultaneously so that we can increase the accuracy of the estimations. Our simulation results show that our EM algorithm can give consistent estimates of all the parameters considered.
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