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Cuticular wax is an important factor that affects storage quality of fruits and vegetables. Previous studies have shown that cuticular wax of pears changes significantly during storage, whereas there are few studies on the effects of different storage methods on the wax changes and the relationship with storage quality. Cuticular wax of Korla pear stored using different methods, was measured to analyze its total wax content, chemical compositions and their relationship with storage quality. At the end of storage, the highest cuticular wax content was observed in controlled atmosphere (CA) storage and the lowest in room temperature storage. The substances of the primary components with higher contents were nonacosane, (E, E)-ɑ-farnesene, dodecan-1-ol, 1,1-dimethoxynonane, nonanal, palmitic acid, and oleic acid. Total wax content, olefins and fatty acids were most significantly with the storage quality, followed by alkanes and esters. Moreover, total wax content, wax composition and weight loss were closely related to postharvest senescence. Overall, an understanding of variations in the cuticular wax under different storage methods could provide theoretical basis for further study on the storage and preservation technology of pears.
相似文献Drug resistance largely limits the efficacy and efficiency of chemotherapeutics, which is a first-line treatment for liver cancer, consequently triggering a complete failure in clinical application. There are numerous attempts in exploring potential strategies for avoiding drug resistance, but none of them has effectively addressed this problem. Therefore, novel molecular targets and agents proposed for addressing drug resistance are needed. This study established 5-fluorouracil (5-Fu)-resistant HepG2 cells (HepG2/R) and showed that a FOXM1-targeted peptide, P201, reactivated 5-Fu to attenuate HepG2/R cell viability, proliferation, migration and promote apoptosis. Moreover, both pharmacological studies and RNA genomic sequencing results uncovered that combination of P201 and 5-Fu notably decreased expressions of FOXM1, MDR1 and ABCG2 compared to 5-Fu alone, indicating P201 overcame 5-Fu resistance mainly through inhibiting FOXM1 and ABC transporters. Therefore, P201 could inhibit ABC transporters by targeting FOXM1 in HepG-2/R cells, overcoming 5-Fu resistance and enhancing anti-cancer drug sensitivity. FOXM1 may be a new target for overcoming 5-Fu resistance in HepG2 cell while the combination treatment of P201 and 5-Fu may serve as a potential strategy for treating liver cancer.
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