The apple(Malus×domestica Borkh.)is one of the world’s most widely grown and valuable fruit crops.With demand for apples year round,storability has emerged as an important consideration for apple breeding progra...The apple(Malus×domestica Borkh.)is one of the world’s most widely grown and valuable fruit crops.With demand for apples year round,storability has emerged as an important consideration for apple breeding programs.Soft scald is a cold storage-related disorder that results in sunken,darkened tissue on the fruit surface.Apple breeders are keen to generate new cultivars that do not suffer from soft scald and can thus be marketed year round.Traditional breeding approaches are protracted and labor intensive,and therefore marker-assisted selection(MAS)is a valuable tool for breeders.To advance MAS for storage disorders in apple,we used genotyping-by-sequencing(GBS)to generate high-density genetic maps in two F1 apple populations,which were then used for quantitative trait locus(QTL)mapping of soft scald.In total,900 million DNA sequence reads were generated,but after several data filtering steps,only 2%of reads were ultimately used to create two genetic maps that included 1918 and 2818 single-nucleotide polymorphisms.Two QTL associated with soft scald were identified in one of the bi-parental populations originating from parent 11W-12-11,an advanced breeding line.This study demonstrates the utility of next-generation DNA sequencing technologies for QTL mapping in F1 populations,and provides a basis for the advancement of MAS to improve storability of apples.展开更多
基金This project was funded by the A-Base research(NOI-1238)of Agriculture and Agri-Food CanadaThis research was also supported in part by funding from the Canada Research Chairs program(SM)and the National Sciences and Engineering Research Council of Canada(SM,KM).
文摘The apple(Malus×domestica Borkh.)is one of the world’s most widely grown and valuable fruit crops.With demand for apples year round,storability has emerged as an important consideration for apple breeding programs.Soft scald is a cold storage-related disorder that results in sunken,darkened tissue on the fruit surface.Apple breeders are keen to generate new cultivars that do not suffer from soft scald and can thus be marketed year round.Traditional breeding approaches are protracted and labor intensive,and therefore marker-assisted selection(MAS)is a valuable tool for breeders.To advance MAS for storage disorders in apple,we used genotyping-by-sequencing(GBS)to generate high-density genetic maps in two F1 apple populations,which were then used for quantitative trait locus(QTL)mapping of soft scald.In total,900 million DNA sequence reads were generated,but after several data filtering steps,only 2%of reads were ultimately used to create two genetic maps that included 1918 and 2818 single-nucleotide polymorphisms.Two QTL associated with soft scald were identified in one of the bi-parental populations originating from parent 11W-12-11,an advanced breeding line.This study demonstrates the utility of next-generation DNA sequencing technologies for QTL mapping in F1 populations,and provides a basis for the advancement of MAS to improve storability of apples.
