单氘代和双氘代(2S, 3S)-3-甲基天冬氨酸的合成以促进酶中固有动力学同位素效应的测量。
Synthesis of Mono- and Di-Deuterated (2S, 3S)-3-Methylaspartic Acids to Facilitate Measurement of Intrinsic Kinetic Isotope Effects in Enzymes.
作者信息
Lee Hyang-Yeol, Yoon Miri, Marsh E Neil G
出版信息
Tetrahedron. 2007 May 28;63(22):4663-4668. doi: 10.1016/j.tet.2007.03.107.
Abstract
Kinetic isotope effects provide a powerful method to investigate the mechanisms of enzyme-catalyzed reactions, but often other slow steps in the reaction such as substrate binding or product release suppress the isotopically sensitive step. For reactions at methyl groups, this limitation may be overcome by measuring the isotope effect by an intra-molecular competition experiment. This requires the synthesis of substrates containing regio-specifically mono- or dideuterated methyl groups. To facilitate mechanistic investigations of the adenosylcobalamin-dependent enzyme, glutamate mutase we have developed a synthesis of mono- and di-deuterated (2S, 3S)-3-methylaspartic acids. Key intermediates are the correspondingly labeled mesaconic acids and their dimethyl esters that potentially provide starting materials for a variety of isotopically labeled molecules.
摘要
动力学同位素效应提供了一种研究酶催化反应机制的强大方法,但反应中的其他慢步骤,如底物结合或产物释放,常常会抑制同位素敏感步骤。对于甲基反应,可通过分子内竞争实验测量同位素效应来克服这一限制。这需要合成含有区域特异性单氘代或双氘代甲基的底物。为便于对依赖腺苷钴胺素的谷氨酸变位酶进行机制研究,我们已开发出单氘代和双氘代(2S, 3S)-3-甲基天冬氨酸的合成方法。关键中间体是相应标记的内亚甲基丁二酸及其二甲酯,它们可能为多种同位素标记分子提供起始原料。
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