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本文引用的文献

1

PEROXIDASE-CATALYZED OXIDATION OF INDOLE-3-ACETIC ACID.

Biochemistry. 1965 Jan;4:144-58. doi: 10.1021/bi00877a023.

2

Inhibitory oxidation products of indole-3-acetic acid: enzymic formation and detoxification by pea seedlings.

Science. 1965 Sep 10;149(3689):1249-51. doi: 10.1126/science.149.3689.1249.

3

Desensitization of regulatory enzymes by a metabolite of plant auxin.

J Biol Chem. 1966 Oct 10;241(19):4564-6.

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豌豆的3-亚甲基氧化吲哚还原酶

3-Methyleneoxindole reductase of peas.

作者信息

Moyed H S, Williamson V

出版信息

Plant Physiol. 1967 Apr;42(4):510-4. doi: 10.1104/pp.42.4.510.

DOI:10.1104/pp.42.4.510

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1086574/

Abstract

A 100-fold purification of a reduced triphosphopyridine nucleotide/3-methyleneoxindole reductase of peas has been achieved using conventional protein fractionation procedures. Reduced diphosphopyridine nucleotide is 25-fold less effective than reduced triphosphopyridine nucleotide as the reductant. The preparation is free of other reductase activities including those linking the oxidation of reduced pyridine nucleotide coenzymes to the reduction of cytochrome c; vitamins K(1), K(2), and K(3); O(2); nitrate; oxidized glutathione; and thiazolyl blue tetrazolium. The affinity of the enzyme for 3-methyleneoxindole (K(s) = 0.5 mm 3-methyleneoxindole) is relatively high. It is, therefore, reasonable to assume that 3-methyleneoxindole is the normal substrate.The enzyme is inhibited by indole-3-acetic acid, indole-3-aldehyde, and by l-naph-thaleneacetic acid. While these are not especially powerful inhibitors (K(1) = 1.9-4.0 mm) the competitive relationship with 3-methyleneoxindole indicates that significant inhibition might occur at low intracellular concentrations of the substrate.

摘要

利用传统的蛋白质分级分离程序，已实现了豌豆中还原型三磷酸吡啶核苷酸/3-亚甲基氧化吲哚还原酶100倍的纯化。作为还原剂，还原型二磷酸吡啶核苷酸的效果比还原型三磷酸吡啶核苷酸低25倍。该制剂不含其他还原酶活性，包括那些将还原型吡啶核苷酸辅酶的氧化与细胞色素c的还原相联系的活性；维生素K(1)、K(2)和K(3)；氧气；硝酸盐；氧化型谷胱甘肽；以及噻唑蓝四氮唑。该酶对3-亚甲基氧化吲哚的亲和力（K(s)=0.5 mM 3-亚甲基氧化吲哚）相对较高。因此，有理由认为3-亚甲基氧化吲哚是正常底物。该酶受到吲哚-3-乙酸、吲哚-3-醛和1-萘乙酸的抑制。虽然这些不是特别强的抑制剂（K(1)=1.9-4.0 mM），但与3-亚甲基氧化吲哚的竞争关系表明，在底物细胞内浓度较低时可能会发生显著抑制。