S. Streitenberger, J. López-Mas, Á. Sánchez-Ferrer, F. García-Carmona
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引用次数: 2
Abstract
Lactate oxidase (LOD) was purified from cells of Aerococcus viridans by phase partitioning in Triton X-114 (TX-114), ammonium sulphate fractionation and FPLC ion exchange chromatography. The purification achieved from a crude extract of A. viridans was 32-fold with a 60% recovery of activity. The isolated enzyme was a true FMN-containing LOD in tetrameric form with a subunit molecular weight of 48,000. The KM for L-lactate was 175 μM, a 6-fold less value than described in the literature. Among the inhibitors tested, Cibacron Blue 3GA showed the lowest Ki. At low concentrations, Cibacron Blue 3GA behaved as a dye-, pH- and time-dependent inhibitor. A Dixon plot of the steady-state rate showed the time-dependent inhibition to be non-linear, contrary to that described for other slow-binding inhibitors. A model to explain this phenomenon was proposed. The model implies the binding of Cibacron Blue 3GA to the isomerised form of the initial enzyme-inhibition complex (E'I).
采用Triton X-114 (TX-114)相分割、硫酸铵分离、FPLC离子交换层析等方法纯化了绿色气球菌细胞中的乳酸氧化酶(LOD)。粗提物纯化效果为32倍,活性回收率为60%。分离的酶是一个真正的四聚体形式的含fmn的LOD,亚基分子量为48,000。l -乳酸的KM为175 μM,比文献中描述的值低6倍。在所测试的抑制剂中,Cibacron Blue 3GA的Ki值最低。在低浓度下,Cibacron Blue 3GA表现为染料、pH和时间依赖性抑制剂。稳态速率的Dixon图显示,与其他慢结合抑制剂相反,时间依赖性抑制是非线性的。提出了一个解释这一现象的模型。该模型表明Cibacron Blue 3GA与初始酶抑制复合物(E'I)的异构化形式结合。
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