期刊
CELLS
卷 12, 期 9, 页码 -出版社
MDPI
DOI: 10.3390/cells12091225
关键词
light wavelength; blueberry; fruit quality; anthocyanin; antioxidant capacity
类别
Different light wavelengths have different effects on fruit quality and anthocyanin biosynthesis in blueberry. Blueberry is a fruit rich in anthocyanin and has important economic and nutritional values. This study investigated the effects of different light wavelengths (white, red, blue, and yellow) on fruit quality and gene expression of anthocyanin biosynthesis in blueberry. The results showed that blue and white light treatments resulted in the highest fruit width, height, and weight in blueberries. Furthermore, blue light significantly improved the expression levels of anthocyanin biosynthesis genes and anthocyanin content in the fruits.
Different light wavelengths display diverse effects on fruit quality formation and anthocyanin biosynthesis. Blueberry is a kind of fruit rich in anthocyanin with important economic and nutritional values. This study explored the effects of different light wavelengths (white (W), red (R), blue (B) and yellow (Y)) on fruit quality and gene expression of anthocyanin biosynthesis in blueberry. We found that the B and W treatments attained the maximum values of fruit width, fruit height and fruit weight in blueberry fruits. The R treatment attained the maximum activities of superoxide dismutase (SOD) and peroxidase (POD), and the Y treatment displayed the maximum contents of ascorbic acid (AsA), glutathione (GSH) and total phenol in fruits, thus improving blueberry-fruit antioxidant capacity. Interestingly, there were differences in the solidity-acid ratio of fruit under different light-wavelength treatments. Moreover, blue light could significantly improve the expression levels of anthocyanin biosynthesis genes and anthocyanin content in fruits. Correlation and principal component analysis showed that total acid content and antioxidant enzymes were significantly negatively correlated with anthocyanin content in blueberry fruits. These results provide new insights for the application of light wavelength to improve blueberry fruit quality and anthocyanin content.
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