Effects of chilling acclimation and methyl jasmonate on sugar metabolism in tomato fruits during cold storage

•MeJA and 2 °C treatments significantly induced chilling tolerance in tomato fruit.•Chilling resistance of tomato fruit was closely associated with sucrose content.•Sucrose content was significantly correlated with the expression of SlSPS3 and SlAI.•Sucrose content in 2 °C-treated fruit was also cor...

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Bibliographic Details
Published in:Scientia horticulturae 2021-11, Vol.289, p.110495, Article 110495
Main Authors: Zhou, Jingxiang, Min, Dedong, Li, Zilong, Fu, Xiaodong, Zhao, Xiuming, Wang, Jihan, Zhang, Xinhua, Li, Fujun, Li, Xiaoan
Format: Article
Language:English
Subjects:
Chilling injury
Low temperature acclimation
Methyl jasmonate
Solanum lycopersicum
Sugar content
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Summary:•MeJA and 2 °C treatments significantly induced chilling tolerance in tomato fruit.•Chilling resistance of tomato fruit was closely associated with sucrose content.•Sucrose content was significantly correlated with the expression of SlSPS3 and SlAI.•Sucrose content in 2 °C-treated fruit was also correlated with the a-AM expression.•Sucrose content in MeJA-treated fruit was also correlate with the β-AM expression. Chilling acclimation and methyl jasmonate (MeJA) treatments are effective ways to alleviate chilling injury (CI) in postharvest fruit and vegetables. Soluble sugars can be used as an important energy substance, as well as an osmotic adjustment substance, participating in various stress responses in plants. However, the regulation mechanism of chilling acclimation and MeJA treatments on sugar metabolism remains unclear during the fruit response to chilling stress. In this study, tomato fruits were used to study the regulation of sugar metabolism during chilling resistance induced by 0.05 mM MeJA and 2 °C chilling acclimation treatments for 12 h and recovering at 25 °C for 6 h before being stored at 2 °C for up to 20 days. The results showed that both 2 °C and MeJA significantly induced chilling tolerance in tomato fruit, which was reflected by the decreased CI and malondialdehyde content, as well as the increased fruit color change and total antioxidant capacity. In addition, we found that 2 °C and MeJA promoted starch degradation and sucrose accumulation, but inhibited the increase of glucose and fructose contents. MeJA and 2 °C treatments enhanced the transcription levels of genes encoding amylase (AM), sucrose phosphate synthase (SPS), sucrose synthase (SuS) and neutral invertase (NI), while decreased the transcription level of gene encoding acid invertase (AI) during most of the storage periods. Further correlation analysis suggested that the chilling resistance of three groups of fruit was closely associated with sucrose content (r=−0.824 in control, r=−0.964 in 2 °C-treated fruit and r=−0.838 in MeJA-treated fruit); and the sucrose content of the fruit was positively correlated with SlSPS3 (r=0.681 in control, r=0.947 in 2 °C-treated fruit and r=0.889 in MeJA-treated fruit) and negatively correlated with SlAI (r=−0.954 in control, r=−0.921 in 2 °C-treated fruit and r=−0.637 in MeJA-treated fruit). In addition, in 2 °C-treated fruit, sucrose content was also correlated with the expression of a-AM (r=0.723), while in MeJA-treated fruit sucrose
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2021.110495