锌离子、镍离子、钴离子和三（羟甲基）氨基甲烷（Tris）对葡聚糖蔗糖酶的抑制作用。

Inhibition of dextransucrase by Zn2+, Ni2+, Co2+, and Tris(hydroxymethyl)aminomethane (Tris).

作者信息

Miller A W, Robyt J F

出版信息

Arch Biochem Biophys. 1986 Aug 1;248(2):579-86. doi: 10.1016/0003-9861(86)90511-4.

DOI:10.1016/0003-9861(86)90511-4

Abstract

Initial rate kinetics of polysaccharide formation indicate that Zn2+, Ni2+, and Co2+ inhibit dextransucrase [sucrose: 1,6-alpha-D-glucan 6-alpha-D-glucosyltransferase, EC 2.4.1.5] by binding to two types of metal ion sites. One type consists of a single site and has a low apparent affinity for Ca2+. At the remaining site(s), Ca2+ has a much higher apparent affinity than Zn2+, Ni2+, or Co2+, and prevents inhibition by these metal ions. These findings are consistent with a two-site model previously proposed from studies with Ca2+ and EDTA. Initial rate kinetics also show that Tris is competitive with sucrose, but that, unlike Zn2+, Tris does not bind with significant affinity to a second site. This argues that there is a site which is both the sucrose binding site and a general cation site.

摘要

多糖形成的初始速率动力学表明，Zn2+、Ni2+和Co2+通过与两种类型的金属离子位点结合来抑制葡聚糖蔗糖酶[蔗糖：1,6-α-D-葡聚糖6-α-D-葡糖基转移酶，EC 2.4.1.5]。一种类型由单个位点组成，对Ca2+的表观亲和力较低。在其余的位点，Ca2+的表观亲和力比Zn2+、Ni2+或Co2+高得多，并能防止这些金属离子的抑制作用。这些发现与先前从Ca2+和EDTA研究中提出的双位点模型一致。初始速率动力学还表明，Tris与蔗糖具有竞争性，但与Zn2+不同，Tris对第二个位点没有显著的亲和力结合。这表明存在一个既是蔗糖结合位点又是一般阳离子位点的位点。

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