The effects of ethephon and abscisic acid(ABA) application on ripening-related genes of pre-harvest ‘Kohi' kiwifruit(Actinidia chinensis) were studied to clarify the possibility of the fruit ripening on the vine....The effects of ethephon and abscisic acid(ABA) application on ripening-related genes of pre-harvest ‘Kohi' kiwifruit(Actinidia chinensis) were studied to clarify the possibility of the fruit ripening on the vine. The fruits were treated on the vine at mature stage with 250 μL·L^(-1)ethephon or 100 μmol·L^(-1)ABA, and the expression levels of chlorophyll synthase(Ac CLS), chlorophyllase1(Ac CLH1), polygalacturonase(Ac PG), expansin(Ac EXP),β-amylase(Acβ-AM), sucrose synthase(Ac SUSY), MADS-box SEPALLATA4/RIPENING INHIBITOR-like(Ac SEP4/RIN) and FRUITFUL-like(Ac TDR4/FUL) genes were analyzed. The expression levels of Ac PG, Ac EXP, Acβ-AM, and Ac SUSY increased in the ethephon-treated fruit, but those of Ac CLH1 at 6and 9 days after treatment and Ac CLS decreased. Moreover, the expression levels of Ac SEP4/RIN and Ac TDR4/FUL, the latter of which is associated with ethylene biosynthesis, were higher in the ethephon-treated fruit. The expression level of each gene in ABA-treated fruit was not significantly different from that of the untreated control. The results suggest that ethephon application increases the expression levels of Ac PG,Ac EXP, Acβ-AM, Ac SUSY, Ac SEP4/RIN, and Ac TDR4/FUL in ‘Kohi' kiwifruit on the vine.展开更多
文摘The effects of ethephon and abscisic acid(ABA) application on ripening-related genes of pre-harvest ‘Kohi' kiwifruit(Actinidia chinensis) were studied to clarify the possibility of the fruit ripening on the vine. The fruits were treated on the vine at mature stage with 250 μL·L^(-1)ethephon or 100 μmol·L^(-1)ABA, and the expression levels of chlorophyll synthase(Ac CLS), chlorophyllase1(Ac CLH1), polygalacturonase(Ac PG), expansin(Ac EXP),β-amylase(Acβ-AM), sucrose synthase(Ac SUSY), MADS-box SEPALLATA4/RIPENING INHIBITOR-like(Ac SEP4/RIN) and FRUITFUL-like(Ac TDR4/FUL) genes were analyzed. The expression levels of Ac PG, Ac EXP, Acβ-AM, and Ac SUSY increased in the ethephon-treated fruit, but those of Ac CLH1 at 6and 9 days after treatment and Ac CLS decreased. Moreover, the expression levels of Ac SEP4/RIN and Ac TDR4/FUL, the latter of which is associated with ethylene biosynthesis, were higher in the ethephon-treated fruit. The expression level of each gene in ABA-treated fruit was not significantly different from that of the untreated control. The results suggest that ethephon application increases the expression levels of Ac PG,Ac EXP, Acβ-AM, Ac SUSY, Ac SEP4/RIN, and Ac TDR4/FUL in ‘Kohi' kiwifruit on the vine.