Poyner Russell R, Anderson Mark A, Bandarian Vahe, Cleland W Wallace, Reed George H
Department of Biochemistry, Enzyme Institute, University of Wisconsin, 1710 University Avenue, Madison, Wisconsin 53726, USA.
J Am Chem Soc. 2006 Jun 7;128(22):7120-1. doi: 10.1021/ja060710q.
The contribution of C-N bond-breaking/making steps to the rate of the free-radical-mediated deamination of vicinal amino alcohols by adenosylcobalamin-dependent ethanolamine ammonia-lyase has been investigated by 15N isotope effects (IE's) and by electron paramagnetic resonance (EPR) spectroscopy. 15N IE's were determined for three substrates, ethanolamine, (R)-2-aminopropanol, and (S)-2-aminopropanol, using isotope ratio mass spectrometry analysis of the product ammonia. Measurements with all three substrates gave measurable, normal 15N IE's; however, the IE of (S)-2-aminopropanol was approximately 5-fold greater than that of the other two. Reaction mixtures frozen during the steady state show that the 2-aminopropanols give EPR spectra characteristic of the initial substrate radical, whereas ethanolamine gives spectra consistent with a product-related radical (Warncke, K.; Schmidt, J. C.; Kee, S.-C. J. Am. Chem. Soc. 1999, 121, 10522-10528). The steady-state concentration of the radical with (R)-2-aminopropanol is about half that observed with the S isomer, and with (R)-2-aminopropanol, the steady-state level of the radical is further reduced upon deuteration at C1. The results show that relative heights of kinetic barriers differ among the three substrates such that levels or identities of steady-state intermediates differ. 15N-sensitive steps are significant contributors to V/K with (S)-2-aminopropanol.
通过¹⁵N同位素效应(IE)和电子顺磁共振(EPR)光谱,研究了碳氮键断裂/形成步骤对腺苷钴胺素依赖性乙醇胺氨裂合酶介导的邻氨基醇自由基脱氨反应速率的贡献。使用产物氨的同位素比质谱分析,测定了三种底物乙醇胺、(R)-2-氨基丙醇和(S)-2-氨基丙醇的¹⁵N IE。对所有三种底物的测量都给出了可测量的正常¹⁵N IE;然而,(S)-2-氨基丙醇的IE大约是其他两种的5倍。稳态期间冷冻的反应混合物表明,2-氨基丙醇给出初始底物自由基特征的EPR光谱,而乙醇胺给出与产物相关自由基一致的光谱(Warncke,K.;Schmidt,J. C.;Kee,S.-C. J. Am. Chem. Soc. 1999,121,10522 - 10528)。(R)-2-氨基丙醇自由基的稳态浓度约为S异构体观察值的一半,并且对于(R)-2-氨基丙醇,在C1处氘化后自由基的稳态水平进一步降低。结果表明,三种底物之间动力学屏障的相对高度不同,使得稳态中间体的水平或身份不同。对于(S)-2-氨基丙醇,¹⁵N敏感步骤是V/K的重要贡献者。