The lipid microviscosity of microsomal membranes from senescing cut carnation (Dianthus caryophyllus L. cv. White Sim) flowers rises with advancing senescence. The increase in membrane microviscosity is initiated within 3 to 4 days of cutting the flowers and coincides temporally with petal-inrolling denoting the climacteric-like rise in ethylene production. Treatment of young cut flowers with aminoethoxyvinylglycine prevented the appearance of petal-inrolling and delayed the rise in membrane microviscosity until day 9 after cutting. When freshly cut flowers or aminoethoxyvinylglycine-treated flowers were exposed to exogenous ethylene (1 microliter per liter), the microviscosity of microsomal membranes rose sharply within 24 hours, and inrolling of petals was clearly evident. Thus, treatment with ethylene accelerates membrane rigidification. Silver thiosulphate, a potent anti-ethylene agent, delayed the rise in microsomal membrane microviscosity even when the flowers were exposed to exogenous ethylene. Membrane rigidification in both naturally senescing and ethylene-treated flowers was accompanied by an increased sterol:phospholipid ratio reflecting the selective loss of membrane phospholipid that accompanies senescence. The results collectively indicate that the climacteric-like surge in ethylene production during senescence of carnation flowers facilitates physical changes in membrane lipids that presumably lead to loss of membrane function.
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机译:衰老的切花康乃馨(石竹(Dianthus caryophyllus L. cv。White Sim))的微粒体膜的脂质微粘度随着衰老的进行而增加。膜微粘度的增加在切花的3到4天内开始,并且在时间上与花瓣的注入相吻合,表明乙烯产量更年期地上升。用氨基乙氧基乙烯基甘氨酸处理切花后的幼花可防止出现花瓣进入的现象,并将膜微粘度的上升延迟至切花后第9天。当新鲜切花或氨基乙氧基乙烯基甘氨酸处理过的花暴露于外源乙烯(每升1微升)时,微粒体膜的微粘度在24小时内急剧上升,并且花瓣明显卷入。因此,用乙烯处理加速了膜的刚性。硫代硫酸银,一种有效的抗乙烯剂,即使花朵暴露于外源乙烯中,也能延迟微粒体膜微粘度的上升。在自然衰老和乙烯处理的花朵中,膜的僵化都伴随着固醇:磷脂比率的增加,反映了伴随衰老的膜磷脂的选择性损失。这些结果共同表明,康乃馨花衰老过程中乙烯产量的更年期状增长促进了膜脂的物理变化,这大概导致了膜功能的丧失。
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