Calculating Elements of Gametic Relationship Matrix in the Model Containing Effects of Marked QTL-Cluster
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概要
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In recent years, a variety of mixed linear models have been proposed for QTL interval mapping and marker-assisted prediction of QTL-and polygene-effects in outbred populations of livestock species. For a model containing the effects of a cluster of linked QTLs or a chromosomal segment marked, a computing procedure is proposed herein for constructing the gametic relationship matrix whose elements are the expected values of the identity-by-descent (IBD) proportions between gametes for individuals. It is shown that the IBD set for two gametes given can be systematically partitioned into some sub-sets that have lower dimensional components according to the related gametogenesis processes. Noticing such property of the IBD set and using the joint gametogenesis process at the marker locus, a recursive method is developed to systematically calculate the required IBD sets and the elements of the gametic relationship matrix. It is expected that the proposed method is efficient compared to the path counting-like method, especially for complex pedigrees of many animals. Further investigation is needed to develop a computing strategy for directly making up the inverse of the gametic relationship matrix.
- 日本計量生物学会の論文
- 2001-06-01
著者
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Matsuda Hirokazu
Course Of Environmental Management Science Graduate School Of Science And Technology
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Matsuda Hirokazu
Course Of Environmental Management Science Graduate School Of Science And Technology Niigata Univers
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Iwaisaki Hiroaki
Course Of Environmental Management Science Graduate School Of Science And Technology
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Iwaisaki Hiroaki
Course Of Environmental Management Science Graduate School Of Science And Technology Niigata Universtiy Department Of Animal Science Faculty Of Agriculture Niigata University
関連論文
- A comparison of interval mapping procedures including the QTL-cluster mapping
- Best Linear Unbiased Prediction of QTLs-Cluster Effects Using Flanking and Upstream Marker Information in Outbred Populations
- Relative accuracy expected in marker-assisted combined selection for quantitative characters in outbred populations
- Best linear unbiased prediction of additive genetic merit using a combined-merit sire and dam model for marker-assisted selection
- Calculating Elements of Gametic Relationship Matrix in the Model Containing Effects of Marked QTL-Cluster
- A recursive procedure to compute the gametic relationship matrix and its inverse for marked QTL clusters