Molecular marker-assisted selection for potato breeding

The use of molecular markers in potato breeding offers new opportunities for the selection of genotypes. To date, many markers linked to useful traits have been found. Indeed, the potato molecular map is saturated with more than 350 markers uniformly distributed on 12 chromosomes. More than 25 single dominant genes have been localized on the potato map, most of them being pest-resistance genes, together with some quantitative trait loci (QTL) controlling yield and tuber quality traits. Molecular markers linked to these genes are now available for rapid, efficient assisted selection (positive assisted selection). Moreover, in order to transfer useful genes, interspecific crosses between wild and cultivated genotypes are often performed, and in this case the use of species-specific molecular markers would allow the wild genomic content to be reduced in few backcross generations (negative assisted selection). The following review discusses the progress achieved in potato breeding through molecular marker-assisted selection.