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Dicyclohexylcarbodiimide and disodium succinate induce the change of energy metabolism in relation to longan pulp breakdown

Yi Zheng, Hetong Lin, Yueying Sang, Mengshi Lin, Yixiong Lin, Yixiong Lin, Hui Wang, Zhongqi Fan, Yihui Chen, Yifen Lin, Yifen Lin

2024Food Chemistry X13 citationsDOIOpen Access PDF

Abstract

Compared to control longan, DCC-treated longan had higher pulp breakdown index, lower ATP, ADP and EC levels, and lower H+, Ca2+ and Mg2+-ATPase activities. On day 6, DCC-treated longan presented 18% higher pulp breakdown index, with 44%, 9% and 31% lower levels of ATP, ADP and EC, respectively. Additionally, DCC-treated longan showed 29%, 53%, 37% lower activity of H+-ATPase, 34%, 54%, 4% lower activity of Ca2+-ATPase, and 13%, 21%, 6% lower activity of Mg2+-ATPase in the membranes of plasma, vacuole, and mitochondria, respectively. Whereas, DS-treated longan manifested the opposite trends of DCC treatment. These results suggest that the accelerated pulp breakdown in DCC-treated longan was linked to energy deficiency and reduced energy production. However, DS treatment restrained pulp breakdown occurrence in fresh longan by maintaining a higher energy level through the elevated energy production and ATPase activity.

Topics & Concepts

Pulp (tooth)ATPaseChemistryEnergy metabolismHorticultureInternal medicineBiochemistryBiologyEnzymeDentistryMedicinePolysaccharides and Plant Cell Wallsbiodegradable polymer synthesis and propertiesNanocomposite Films for Food Packaging
Dicyclohexylcarbodiimide and disodium succinate induce the change of energy metabolism in relation to longan pulp breakdown | Litcius