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首页> 外文期刊>The Journal of Horticultural Science & Biotechnology >Anti-oxidant metabolism during rose (Rosa hybrida L.) petal senescence
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Anti-oxidant metabolism during rose (Rosa hybrida L.) petal senescence

机译:玫瑰(Rosa hybrida L.)花瓣衰老过程中的抗氧化代谢

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The role of the ascorbic acid-reduced glulathione (ASA-GSH) cycle was explored in relation to petal senescence in 'First Red' rose (Rosa hybrida L.). The contents of reduced ASA [5.43 mu mol g(-1) FW at Stage-2 (bud still closed and heavily pigmented) to 12.22 mu mol g(-1) FW at Stage-4, (flowers 3 d after harvest, sepals completely opened, petal beginning to unfold)] and GSH (2.43 mu mol g(-1) FW at Stage-2 to 3.77 mu mol g(-1) FW at Stage 4), were higher during the earlier stages of petal development. Maximum activities of dehydroascorbate reductase (DHAR; 6.28 mu mol ascorbate min(-1) mal protein). monodehydroascorbate reductase (MDHAR; 4.24 mu mol NADH min(-1) mg(-1) protein), ascorbate peroxidase (APOD: 6.28 mu mol ascorbate min(-1) mg(-1) protein), and glutathione reductase (GR 2.46 Delta A(412) min(-1) mg(-1) protein) were observed at Stage 4. Consequently, this reduced redox status may protect cells from deleterious oxidative stress. The APOD/DHAR system was more active than the APOD/MDHAR system in the regeneration of ASA in petals of 'First Red' rose. However, the APOD/MDHAR system may play a significant role during the later stages of senescence, when the supply of reduced glutathione [GSK; 0.42 mu mol g(-1) FIX at Stage-5 (flowers 6 d after harvest, petals completely unfolded) declined to 0.20 mu mol g(-1) FW at Stage-6 (flowers 9 d after harvest, flowers completely senesced with petal blueing]. The terminal stages of senescence were characterised by significant declines in the activities of DHAR (Stage-6, 1.94 mu mol ascorbate min(-1) mg(-1) protein), MDHAR (Stage-6, 0.98 mu mol NADH min(-1) mg(-1) protein), and APOD (Stage-6, 2.91 mu mol ascorbate min(-1) mg(-1) protein), with higher levels of DHA (3.24 mu mol g(-1) FW at Stage-4 to 6.25 mu mol g(-1) FW at Stage-5) and oxidised glutathione (GSSG; 0.22 mu mol g(-1) FW at Stage 4 to 0.62 mu mol g(-1) FW at Stage 5). This highly oxidative redox state appeared to tic the cause of petal senescence in 'First Red' rose.
机译:研究了抗坏血酸减少的胶质硫酮(ASA-GSH)周期与“第一朵红”玫瑰(Rosa hybrida L.)花瓣衰老的关系。减少的ASA含量[阶段2的5.43μmol g(-1)FW(花蕾仍闭合且色素沉着),阶段4的减少至12.22μmol g(-1)FW,(收获后3 d,花萼片完全开放,花瓣开始展开)]和GSH(在第2阶段为2.43μmol g(-1)FW至第4阶段为3.77μmol g(-1)FW),在花瓣发育的早期阶段较高。脱氢抗坏血酸还原酶(DHAR; 6.28μmol抗坏血酸min(-1)mal蛋白)的最大活性。单脱氢抗坏血酸还原酶(MDHAR; 4.24μmol NADH min(-1)mg(-1)蛋白),抗坏血酸过氧化物酶(APOD:6.28μmol抗坏血酸min(-1)mg(-1)蛋白)和谷胱甘肽还原酶(GR 2.46在阶段4观察到Delta A(412)min(-1)mg(-1)蛋白)。因此,这种减少的氧化还原状态可以保护细胞免受有害的氧化应激。在“第一朵红”玫瑰花瓣中的ASA再生中,APOD / DHAR系统比APOD / MDHAR系统更活跃。但是,当提供还原型谷胱甘肽时,APOD / MDHAR系统可能在衰老的后期发挥重要作用。在第5阶段(收获后6朵花,花瓣完全展开)的0.42μmol g(-1)FIX在第6阶段(收获后9朵花,花朵完全衰老)降至0.20μmol g(-1)FW衰老的末期特征是DHAR(Stage-6,1.94μmol抗坏血酸min(-1)mg(-1)蛋白),MDHAR(Stage-6,0.98 mu mol)的活性显着下降NADH min(-1)mg(-1)蛋白)和APOD(Stage-6,2.91μmol抗坏血酸min(-1)mg(-1)蛋白),DHA含量较高(3.24μmolg(-) 1)第4阶段的FW至第5阶段的6.25μmol g(-1)FW)和氧化型谷胱甘肽(GSSG;第4阶段的0.22μmol g(-1)的FW第4至0.62μmol g(-1)的FW在第5阶段),这种高度氧化的氧化还原状态似乎是“第一朵红”玫瑰中花瓣衰老的原因。

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