Postharvest application of MeJA and NO reduced chilling injury in cucumber (Cucumis sativus) through inhibition of H2O2 accumulation.

Cucumber is a chilling-sensitive vegetable, which is susceptible to chilling injury during storage and shipment at temperatures below 7–10 °C. MeJA and NO have been shown to be able to induce chilling tolerance, but how they are related and how H 2 O 2 is involved in the chilling responses they trigger remains unclear. Here postharvest application of 10 μM MeJA and 1 mM SNP, a NO donor, significantly reduced chilling injury of cucumbers stored at 5 °C. MeJA and SNP reduced H 2 O 2 in cucumber during storage, suggesting that H 2 O 2 may not function as a second messenger in chilling responses activated by MeJA or NO, and that, both MeJA and NO alleviated CI by inhibiting H 2 O 2 generation. This is confirmed by the evidence that diphenylene iodonium further strengthened the chilling tolerance induced by MeJA or SNP. The lower H 2 O 2 induced by MeJA and NO was coincident with enhanced catalase activity and gene expression, suggesting that CAT played an important role in control of H 2 O 2 accumulation. Two more independent experiments showed that, L-NAME and cPTIO, inhibitors of endogenous NO accumulation, significantly compromised MeJA-induced chilling tolerance, but IBU and SHAM, inhibitors of endogenous jasmonic acids biosynthesis, did not affect the chilling tolerance activated by SNP, suggesting MeJA may function upstream of and depend on NO in the signaling pathway that activates chilling tolerance in cucumber. [ABSTRACT FROM AUTHOR]