RESUMO
As a conspicuous trait, peel color is one of the most important characteristics that affects commodity quality and consumer preferences. The locus Y underlying yellow peel in Cucurbita pepo (zucchini) was first reported in 1922; however, its molecular mechanism is still unknown. In this study, a genetic analysis revealed that yellow peel is controlled by a single dominant genetic factor. Furthermore, Y was mapped in a ~170 kb region on chromosome 10 by bulked segregated analysis (BSA) and fine mapping in F2 and BC1 segregating populations. The candidate region harbors fifteen annotated genes, among which Cp4.1LG10g11560 (CpCHLH) is regarded as a promising candidate gene. CpCHLH encodes a magnesium chelatase H subunit involved in chlorophyll biosynthesis, and its mutation can result in a reduction in chlorophyll content and yellow phenotype. Interestingly, a large fragment (~15 kb) duplication containing incomplete CpCHLH was inserted in the candidate interval, resulting in two reformed CpCHLH proteins in the yellow parental line. It is most likely that the reformed CpCHLH proteins act as a malfunctional competitor of the normal CpCHLH protein to interrupt the formation of chlorophyll. Overall, the isolation of Y will shed light on the molecular mechanism of the peel color regulation of zucchini and lay a foundation for breeding.
RESUMO
To reveal the molecular mechanism underlying peel colouration, carotenoid metabolites and the transcriptome were jointly analysed in zucchini peels with three different colours: light green (Lg), yellow (Y), and orange (O). Our results showed that the carotenoid levels in O (157.075 µg/g) and Y (22.734 µg/g) were both significantly higher than in Lg (7.435 µg/g), while the chlorophyll content was highest in Lg (32.326 µg/g), followed by O (7.294 µg/g) and Y (4.617 µg/g). A total of 14 carotenoids were detected in zucchini peels, primarily lutein (103.167 µg/g in Lg, 509.667 µg/g in Y, and 1543.333 µg/g in O). In particular, significant accumulation of antheraxanthin, zeaxanthin, neoxanthin, and ß-cryptoxanthin was first reported in orange zucchini in this study. Furthermore, two modules with hub genes related to carotenoid or chlorophyll content were identified through weighted gene coexpression network analysis. Additionally, the transcription level of some hub genes (PIF4, APRR2, bHLH128, ERF4, PSY1, LCYE2, and RCCR3) was highly correlated with pigment content in the peel, which may be responsible for carotenoid accumulation and chlorophyll degradation in the Y and O varieties. Taken together, the results obtained in this study help to provide a novel mechanism underlying peel colouration in zucchini.