Comparative changes of health-promoting phytochemicals and sugar metabolism of two hardy kiwifruit ( Actinidia arguta ) cultivars during fruit development and maturity

Hardy kiwifruit ( ) has an extensive range of nutritional and bioactive compounds and has been valued as a great resource for kiwifruit breeding. A better understanding of the dynamic changes of the composition and accumulation of nutritional compounds during fruit development and ripening is requir...

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Published in:Frontiers in plant science 2022-12, Vol.13, p.1087452
Main Authors: Lin, Yuanxiu, Tang, Honglan, Zhao, Bing, Lei, Diya, Zhou, Xuan, Yao, Wantian, Fan, Jinming, Zhang, Yunting, Chen, Qing, Wang, Yan, Li, Mengyao, He, Wen, Luo, Ya, Wang, Xiaorong, Tang, Haoru, Zhang, Yong
Format: Article
Language:English
Subjects:
actinidia arguta
antioxidant capacity
nutritional compounds
organic acids
Plant Science
sugars
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Summary:Hardy kiwifruit ( ) has an extensive range of nutritional and bioactive compounds and has been valued as a great resource for kiwifruit breeding. A better understanding of the dynamic changes of the composition and accumulation of nutritional compounds during fruit development and ripening is required before genetic or cultural improvements can be targeted. In the present study, the phytochemical analysis of two cultivars 'Yilv' and 'Lvmi-1' showed that they comprised different morphology, with a higher fruit diameter while a lower vertical fruit diameter of 'Lvmi-1' compared with 'Yilv'. The antioxidant capacity of both cultivars decreased during the maturity time and showed no significant difference between them. Furthermore, although glucose gradually increased during the maturity time, the predominant sugar composition was speculated to be fructose in 'Lvmi-1' fruit while sucrose in 'Yilv' fruit at the early fruit developmental stages. Moreover, the predominant acids in 'Yilv' and 'Lvmi-1' were citric acid followed by quinic acid, malic acid, and oxalic acid. The expression of sugar- and starch-related genes encoding the crucial enzymes suggested different changes in 'Yilv' and 'Lvmi-1'. Notably, a subsequent correlation analysis showed a significant positive correlation between sucrose phosphate synthase (SPS) expression and glucose in 'Yilv', fructokinase (FK) expression, and starch content in 'Lvmi-1', implying their vital roles in sugar and starch accumulation. By contrast, a significant negative correlation between FK expression and fructose in 'Lvmi-1' fruit was observed. In summary, our results provide supplementary information for the dynamic changes of nutritional compounds and antioxidant capacity during hardy kiwifruit maturity time and give a clue for exploring the mechanism of sugar and starch accumulation in hardy kiwifruit.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2022.1087452