Fruit maturity is an important agronomic trait of fruit crops. Although in previous studies, several molecular markers are developed for the trait, the knowledge about its candidate genes is particularly limited. In this study, a total of 357 peach accessions were re-sequenced to obtain 949,638 SNPs. Combing with 3-year fruit maturity dates, a genome-wide association analysis was performed, and 5, 8, and 9 association loci were identified. To screen the candidate genes for those year-stable loci on chromosomes 4 and 5, two maturity date mutants were used for transcriptome sequencing. Gene expression analysis indicated that Prupe.4G186800 and Prupe.4G187100 on chromosome 4 were essential to fruit ripening in peaches. However, the expression analysis of different tissues showed that the first gene has no tissue-specific character, but transgenic studies showed that the latter is more likely to be a key candidate gene than the first for the maturity date in peach. The yeast two-hybrid assay showed that the proteins encoded by the two genes interacted and then regulated fruit ripening. Moreover, the previously identified 9 bp insertion in Prupe.4G186800 may affect their interaction ability. This research is of great significance for understanding the molecular mechanism of peach fruit ripening and developing practical molecular markers in a breeding program.
Keywords: Genome wide association analysis; Maturity date; NAC gene; Peach.
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