Induced sulfur metabolism by sulfur dioxide maintains postharvest quality of ‘Thompson Seedless’ grape through increasing sulfite content
2022
Zhang, Zheng | Wei, Jia | Wang, Man | Zhang, Jian | Wu, Bin
BACKGROUND: The commercial preservation of table grapes largely depends on the application of sulfur dioxide (SO₂). However, little is known about whether SO₂ participates in sulfur metabolism to improve the postharvest quality of table grapes. In this study, the contents of sulfur‐containing compounds, activities of enzymes, and expression of genes involved in sulfur metabolism in table grapes (Vitis vinifera cv. Thompson Seedless) were evaluated. RESULTS: The results indicated that SO₂ treatment maintained the postharvest quality of table grapes. The sulfite content in rachises and berries, but not the sulfate content, increased in response to SO₂ treatment. SO₂ caused high activities of sulfite reductase, O‐acetylserine (thiol)‐lyase, and γ‐glutamylcysteine synthetase, thereby increasing the contents of cysteine, hydrogen sulfide, and glutathione in the rachises and berries. The expression of VvSURTL, VvATPS1, VvATPS2, and VvAPR3 decreased in response to SO₂ treatment; however, the transcript levels of VvSiR1 and VvOASTL exhibited the opposite tendency. CONCLUSION: These findings indicated that the sulfite converted from SO₂ participated in sulfur metabolism and maintained the postharvest quality of table grapes by modulating the contents of metabolites, activities of enzymes, and expression of genes related to sulfur metabolism. © 2021 Society of Chemical Industry.
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