摘要
Breeding apple cultivars with resistance offers a potential solution to fire blight,a damaging bacterial disease caused by Erwinia amylovora.Most resistance alleles at quantitative trait loci(QTLs)were previously characterized in diverse Malus germplasm with poor fruit quality,which reduces breeding utility.This study utilized a pedigree-based QTL analysis approach to elucidate the genetic basis of resistance/susceptibility to fire blight from multiple genetic sources in germplasm relevant to U.S.apple breeding programs.Twenty-seven important breeding parents(IBPs)were represented by 314 offspring from 32 full-sib families,with‘Honeycrisp’being the most highly represented IBP.Analyzing resistance/susceptibility data from a two-year replicated field inoculation study and previously curated genome-wide single nucleotide polymorphism data,QTLs were consistently mapped on chromosomes(Chrs.)6,7,and 15.These QTLs together explained~28% of phenotypic variation.The Chr.6 and Chr.15 QTLs colocalized with previously reported QTLs,while the Chr.7 QTL is possibly novel.‘Honeycrisp’inherited a rare reduced-susceptibility allele at the Chr.6 QTL from its grandparent‘Frostbite’.The highly resistant IBP‘Enterprise’had at least one putative reduced-susceptibility allele at all three QTLs.In general,lower susceptibility was observed for individuals with higher numbers of reduced-susceptibility alleles across QTLs.This study highlighted QTL mapping and allele characterization of resistance/susceptibility to fire blight in complex pedigree-connected apple breeding germplasm.Knowledge gained will enable more informed parental selection and development of trait-predictive DNA tests for pyramiding favorable alleles and selection of superior apple cultivars with resistance to fire blight.
基金
Washington Tree Fruit Research Commission projects CP-15-100 and CP-12-104,United States Department of Agriculture(USDA)-National Institute of Food and Agriculture(NIFA)award 2016-68004-24770,USDA-NIFA project‘Integrating genetics,genomics,and physiology to inform breeding for fire blight resistance in apple’(2020-67034-31887)
USDA-NIFA Specialty Crop Research Initiative project‘RosBREED:combining disease resistance and horticultural quality in new rosaceous cultivars’(2014-51181-22378)
USDA-NIFA Hatch project 1014919.
