Genetic mapping of a major codominant QTL associated with β-carotene accumulation in watermelon

The common flesh color of commercially grown watermelon is red due to the accumulation of lycopene. However, natural variation in carotenoid composition that exists among heirloom and exotic accessions results in a wide spectrum of flesh colors. We previously identified a unique orange flesh watermelon accession (NY0016) that accumulates mainly beta-carotene and no lycopene. We hypothesized this unique accession could serve as a viable source for increasing provitamin A content in watermelon. Here we characterize the mode of inheritance and genetic architecture of this trait. Analysis of testcrosses of NY0016 with yellow and red fruited lines indicated a codominant mode of action as F-1 fruits exhibited a combination of carotenoid profiles from both parents. We combined visual color phenotyping with genotyping-bysequencing of an F-2:3 population from a cross of NY0016 by a yellow fruited line, to map a major locus on chromosome 1, associated with beta-carotene accumulation in watermelon fruit. The QTL interval is approximately 20 cM on the genetic map and 2.4 Mb on the watermelon genome. Trait-linked marker was developed and used for validation of the QTL effect in segregating populations across different genetic backgrounds. This study is a step toward identification of a major gene involved in carotenoid biosynthesis and accumulation in watermelon. The codominant inheritance of beta-carotene provides opportunities to develop, through marker-assisted breeding, beta-carotene-enriched red watermelon hybrids.