Segregation and conditional probability association of molecular markers with traits in autotetraploid alfalfa

The complications introduced by the autotetraploid, outcrossing nature of a lfalfa (Medicago sativa L.) as related to detecting associations of marker loci and traits of interest are discussed, and a new method of detecting ma rker-trait associations is suggested. This method utilizes plant population s that are likely to have been produced through the plant breeding process: populations selected for one trait, and the base, unselected population. M arker allele frequency shifts between the populations are indicative of gen omic regions involved in trait expression, and may indicate alleles that ha ve reached the triplex or homozygous state and do not segregate in S-1 or F -1 populations. However, because many, perhaps hundreds, of sequential freq uency comparisons are needed to detect fragments in significantly different proportions in the two populations, the type I error rate is very high. A resampling-based analysis method is proposed to address the concern of the type I error rate, and identify marker alleles associated with this trait o f interest. The utility of marker-trait associations thus defined for ident ifying individual plants from heterogeneous populations was investigated th rough model-building and conditional probability studies. Factors investiga ted that influenced the utility of the marker associations and (in the base population) the frequencies of the trait and marker, and the frequencies o f the markers in plants exhibiting the trait and in the plants not exhibiti ng the trait. The frequency of occurrence of a marker in undesirable plants profoundly influenced the efficiency with which the marker could be used t o select desirable plants, however, under some circumstances, markers or co mbinations of markers can be highly efficient for selecting rare, desirable plants from a heterogeneous base population.