Abstract

The advent of high resolution genetic maps of highly informative short tandem repeat polymorphisms (STRPs) has made the mapping of genes which confer increased susceptibility to common and/or complex diseases technically feasible. However, the statistical and computational methodology to efficiently utilize this technology is lagging behind the requisite laboratory methods. The overall goal of this proposal is to develop the statistical and computational tools to effectively take maximal advantage of these dense genetic maps. We have previously developed a method (MIM) using multiple marker loci to partition genetic variance of a human quantitative trait to loci located in specific chromosomal regions. In this proposal we plan to continue and extend our work on the MIM methodology and incorporate these new theoretical developments in an expanded version of our previously developed computer software. We will examine the utility of a Monte-Carlo method for multipoint linkage analysis of complex traits on large extended pedigrees with substantial amounts of missing data. We plan to adapt this method to several non-parametric or model-free linkage analysis methods to increase their power in general pedigrees. Lastly, we will apply the methods derived in the above specific aims to several human traits of varying complexity using previously gathered genome-wide genotypic data from our ongoing linkage studies.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Human Genome Research Institute (NHGRI)
Type
Research Project (R01)
Project #
2R01HG000571-04
Application #
2208913
Study Section
Special Emphasis Panel (ZRG2-GNM (02))
Project Start
1992-03-15
Project End
1998-03-31
Budget Start
1995-04-01
Budget End
1996-03-31
Support Year
4
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
University of Utah
Department
Biostatistics & Other Math Sci
Type
Schools of Arts and Sciences
DUNS #
City
Salt Lake City
State
UT
Country
United States
Zip Code
84112

  Publications

Shugart, Y Y; Goldgar, D E (1999) Multipoint genomic scanning for quantitative loci: effects of map density, sibship size and computational approach. Eur J Hum Genet 7:103-9
Whittaker, J C; Lewis, C M (1998) The effect of family structure on linkage tests using allelic association. Am J Hum Genet 63:889-97
Goldgar, D E; Easton, D F (1997) Optimal strategies for mapping complex diseases in the presence of multiple loci. Am J Hum Genet 60:1222-32
Lewis, C M; Kort, E N (1997) Multilocus quantitative trait analysis using the multipoint identity-by-descent method. Genet Epidemiol 14:839-44
Lewis, C M; Goldgar, D E (1995) Screening for linkage using a multipoint identity-by-descent method. Genet Epidemiol 12:777-82
Goldgar, D E; Neuhausen, S L; Steele, L et al. (1995) A 45-year follow-up of kindred 107 and the search for BRCA2. J Natl Cancer Inst Monogr :15-9
Thomas, A; Skolnick, M H; Lewis, C M (1994) Genomic mismatch scanning in pedigrees. IMA J Math Appl Med Biol 11:1-16
Wooster, R; Neuhausen, S L; Mangion, J et al. (1994) Localization of a breast cancer susceptibility gene, BRCA2, to chromosome 13q12-13. Science 265:2088-90
Thomas, A; Skolnick, M H (1994) A probabilistic model for detecting coding regions in DNA sequences. IMA J Math Appl Med Biol 11:149-60
Gholami, K; Thomas, A (1994) A linear time algorithm for calculation of multiple pairwise kinship coefficients and the genetic index of familiality. Comput Biomed Res 27:342-50

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