人血清丁基胆碱酯酶的组氨酸修饰

D. Cengiz, A.N. Çokugraş, K. Kilinç, E.F. Tezcan
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引用次数: 4

摘要

研究组氨酸修饰试剂对人血清丁基胆碱酯酶(BChE)的影响。在使用前,用Sepharose CI-6B柱进一步纯化市售酶。在修饰研究中,我们发现组氨酸特异性试剂tosyl苯丙氨酸氯甲基酮(TPCK)和tosylysine氯甲基酮(TLCK)对酶没有修饰作用;然而,它们可以可逆地抑制这种酶。计算得到TPCK的酶抑制动力学参数为α = 10.8, β = 0.26, ki = 0.016 mm。TLCK具有相似的抑制动力学行为,α = 41.6, β = 0.065, ki = 0.039 mm。TLCK的类似物tosylysine对酶没有抑制作用。通过透析去除TPCK和TLCK导致酶的显著再激活。从动力学研究中发现,抑制为双曲混合型抑制。我们得出结论,这些试剂与底物竞争疏水结合位点,并可逆地抑制酶。另一方面,在焦碳酸二乙酯(DPC)改性研究中,观察到酶的失活是不可逆的和时间依赖性的。在保护研究中,即使在50mm浓度的丁基硫代胆碱下,DPC也能部分保护酶的活性,使其免于失活。结果表明,DPC修饰了BChE中一些必需的组氨酸侧链,包括在活性位点发现的功能性组氨酸残基。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Histidine Modification of Human Serum Butyrylcholinesterase

The effects of histidine-modifying reagents on human serum butyrylcholinesterase (BChE) were investigated. The commercially available enzyme was further purified by chromatography on a Sepharose CI-6B column prior to use. In the modification studies, we found that the histidine-specific reagents tosylphenylalanine chloromethyl ketone (TPCK) and tosyllysine chloromethyl ketone (TLCK) did not modify the enzyme; however, they inhibited the enzyme reversibly. The kinetic parameters of enzyme inhibition calculated were α = 10.8, β = 0.26, andKi= 0.016 mmfor TPCK. TLCK inhibition gave similar kinetic behavior, with α = 41.6, β = 0.065, andKi= 0.039 mm. Tosyllysine, an analog of TLCK, did not inhibit the enzyme. Removal of TPCK and TLCK by dialysis resulted in significant reactivation of the enzyme. From kinetic studies, it was found that the inhibitions were hyperbolic mixed-type inhibitions. We concluded that the reagents competed with substrate for hydrophobic binding sites and inhibited the enzyme reversibly. On the other hand, in the modification studies with diethyl pyrocarbonate (DPC), it was observed that inactivation of the enzyme was irreversible and time-dependent. In the protection studies, the activity of the enzyme was partially protected from inactivation by DPC even at a 50 mmconcentration of butyrylthiocholine. The results indicate that DPC modifies some essential histidine side chains in BChE, including the functional histidyl residue found at the active site.

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