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菜豆附着和脱落子叶中蛋白质的分解及蛋白酶的形成

Protein Breakdown and Formation of Protease in Attached and Detached Cotyledons of Phaseolus vulgaris L.

作者信息

Yomo H, Srinivasan K

机构信息

Kitchawan Research Laboratory of the Brooklyn Botanic Garden, Ossining, New York 10562.

出版信息

Plant Physiol. 1973 Dec;52(6):671-3. doi: 10.1104/pp.52.6.671.

DOI:10.1104/pp.52.6.671

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC366569/

Abstract

In contrast to earlier reported results of similar experiments in peas, in which almost no increase in protease activity occurred in incubated detached cotyledons, we report here an increase in protease activity in both attached and detached bean cotyledons. Detached bean cotyledons showed continually increasing protease activity up to the 12th day, while that in attached cotyledons declined after 6 days. The free amino acid level in detached cotyledons reached a maximum at the 11th day; protease formation leveled off after 50% of the original seed protein was digested. These data suggest that high free amino acid levels may inhibit protease formation.The activity of partially purified protease in aqueous extracts was enhanced by 10 mm 2-mercaptoethanol or cysteine, indicating a sulfhydryl requirement for activation. Protease formation in detached cotyledons was inhibited 30% by 10 mug/ml cycloheximide and 50% by 100 mum abscisic acid. In contrast, alpha-amylase formation was inhibited 90% by 10 mug/ml cycloheximide and 95% by 20 mum abscisic acid. The cycloheximide data suggest that only a part of the protease, but all of the alpha-amylase, is synthesized de novo; the similar pattern of inhibition by abscisic acid emphasizes the concept that protease may exist in two forms.

摘要

与早期报道的豌豆类似实验结果相反，在那些实验中，离体培养的子叶中蛋白酶活性几乎没有增加，我们在此报告，无论是附着的还是离体的菜豆子叶中蛋白酶活性都有所增加。离体菜豆子叶的蛋白酶活性在第12天前持续增加，而附着子叶中的蛋白酶活性在6天后下降。离体子叶中的游离氨基酸水平在第11天达到最高；当原始种子蛋白的50%被消化后，蛋白酶的形成趋于稳定。这些数据表明，高游离氨基酸水平可能会抑制蛋白酶的形成。水提取物中部分纯化的蛋白酶活性可被10 mM 2-巯基乙醇或半胱氨酸增强，这表明激活需要巯基。10 μg/ml放线菌酮可抑制离体子叶中蛋白酶形成30%，100 μM脱落酸可抑制50%。相比之下，10 μg/ml放线菌酮可抑制α-淀粉酶形成90%，20 μM脱落酸可抑制95%。放线菌酮的数据表明，只有一部分蛋白酶是重新合成的，而所有的α-淀粉酶都是重新合成的；脱落酸的类似抑制模式强调了蛋白酶可能以两种形式存在的概念。