Abstract
Bacterial fruit blotch (BFB) causes losses in melon marketable yield. However, until now, there has been no information about the genetic loci responsible for resistance to the disease or their pattern of inheritance. We determined the inheritance pattern of BFB resistance from a segregating population of 491 F2 individuals raised by crossing BFB-resistant (PI 353814) and susceptible (PI 614596) parental accessions. All F1 plants were resistant to Acidovorax citrulli strain KACC18782, and F2 plants segregated with a 3:1 ratio for resistant and susceptible phenotypes, respectively, in a seedling bioassay experiment, indicating that BFB resistance is controlled by a monogenic dominant gene. In an investigation of 57 putative disease-resistance related genes across the melon genome, only the MELO3C022157 gene (encoding TIR-NBS-LRR domain), showing polymorphism between resistant and susceptible parents, revealed as a good candidate for further investigation. Cloning, sequencing and quantitative RT-PCR expression of the polymorphic gene MELO3C022157 located on chromosome 9 revealed multiple insertion/deletions (InDels) and single nucleotide polymorphisms (SNPs), of which the SNP A2035T in the second exon of the gene caused loss of the LRR domain and truncated protein in the susceptible accession. The InDel marker MB157-2, based on the large (504 bp) insertion in the first intron of the susceptible accession, was able to distinguish resistant and susceptible accessions among 491 F2 and 22 landraces/inbred accessions with 98.17% and 100% detection accuracy, respectively. This novel PCR-based, co-dominant InDel marker represents a practical tool for marker-assisted breeding aimed at developing BFB-resistant melon accessions.
Highlights
Melon (Cucumis melo L., 2n = 2× = 24) belonging to the Cucurbitaceae family produce delicious, sweet, fruits rich in vitamins, minerals and health-promoting antioxidants [1]
Since definitive resistance genes (R-genes) is known to be associated with Bacterial fruit blotch (BFB) resistance in melon, we identified polymorphisms no definitive R-gene is known to be associated with BFB resistance in melon, we identified in putative R-genes with nucleotide binding site (NBS), LRR, TIR and CC domains throughout the genome based on a functional polymorphisms in putative R-genes with NBS, LRR, TIR and CC domains throughout the genome annotation of sequences in the Cucurbit Genomics database
Since no quantitative trait locus (QTL) or functional gene has been reported for BFB resistance in melon, we examined putative R-genes genome-wide
Summary
Melon (Cucumis melo L., 2n = 2× = 24) belonging to the Cucurbitaceae family produce delicious, sweet, fruits rich in vitamins, minerals and health-promoting antioxidants [1]. They are an economically important agricultural crop cultivated and consumed all around the world, with an average production of more than 29 million tons per year throughout the past decade [2]. The disease causes significant economic losses in other cultivated cucurbits, such as citron melon, prickly paddy melon, pumpkin, cucumber, squash, several types of gourds and watermelon, and has been reported all over the world, including the United States, Nicaragua, Costa Rica, Brazil, Australia, Turkey, Japan, Korea, Thailand, Taiwan and China [7,8,9,10,11,12,13]
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