Effect of hot water and molybdenum dips on endogenous polyamines and heat shock protein (HSP70) in lemon flavedo and their ability to alleviate chilling injury during cold storage.

摘要

Polyamines (putrescine, spermine and spermidine) are cations which bind to negatively charged cellular compounds such as proteins, DNA and membrane phospholipids. The function of antioxidants, proteins (including heat shock proteins), and membranes is improved when highly conjugated with polyamines. Heat shock proteins (HSPs) are molecular charperones re-directing damaged proteins towards proteolysis. They have been shown to act synergistically to polyamines in mitigating plant stress. Furthermore, hot water enhances heat shock protein and previous studies have shown hot water plus molybdenum to reduced chilling injury in citrus fruit. Therefore, the aim of this work was to investigate the potential role of hot water and molybdenum to mitigate chilling injury by enhancing heat shock protein (HSP70) and possible relationship between HSPs and polyamine during cold storage. Fruit from different sources, commonly chilling susceptible or resistant, were pre-conditioned for 2 min with hot water dip (HWD) 47 or 53 degrees C in combination with a subsequent soak in 1 or 10 micro M Na₂MoO₄ solution for 30 min. Fruit were subsequently stored at -0.5 degrees C for 7, 14, 21 or 28 days, then moved to ambient temperature for a week and evaluated for chilling injury symptoms. Lemon fruit treated with HWD 53 degrees C; 1 micro M Mo; 10 micro M Mo plus HWD 53 degrees C showed enhanced HSP70 as compared with control or HWD 47 degrees C which correlated with increased soluble-conjugated polyamine and therefore, reduced chilling injury symptoms.