Quantitative trait mapping in a diallel cross of recombinant inbred lines.

Document Type

Article

Publication Date

2005

Keywords

Computer-Simulation, Crosses-Genetic, Models-Genetic, Phenotype, Quantitative-Trait-Loci, Recombination-Genetic

First Page

344

Last Page

355

JAX Source

Mamm Genome 2005 May; 16(5): 344-55.

Abstract

A recombinant inbred intercross (RIX) is created by generating diallel F1 progeny from one or more panels of recombinant inbred (RI) strains. This design was originally introduced to extend the power of small RI panels for the confirmation of quantitative trait loci (QTL) provisionally detected in a parental RI set. For example, the set of 13 C x B (C57BL/6ByJ x BALB/cByJ) RI strains can, in principle, be supplemented with 156 isogenic F1s. We describe and test a method of analysis, based on a linear mixed model, that accounts for the correlation structure of RIX populations. This model suggests a novel permutation algorithm that is needed to obtain appropriate threshold values for genome-wide scans of an RIX population. Despite the combinational multiplication of unique genotypes that can be generated using an RIX design, the effective sample size of the RIX population is limited by the number of progenitor RI genomes that are combined. When using small RI panels such as the C x B there appears to be only modest advantage of the RIX design when compared with the original RI panel for detecting QTLs with additive effects. The RIX, however, does have an inherent ability to detect dominance effects, and, unlike RI strains, the RIX progeny are genetically reproducible but are not fully inbred, providing somewhat more natural genetic context. We suggest a breeding strategy, the balanced partial RIX, that balances the advantage of RI and RIX designs. This involves the use of a partial RIX population derived from a large RI panel in which the available information is maximized by minimizing correlations among RIX progeny.

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