高等植物中的ATP硫酸化酶:甘蓝叶酶的纯化及初步动力学研究
ATP sulfurylase from higher plants : purification and preliminary kinetics studies on the cabbage leaf enzyme.
作者信息
Osslund T, Chandler C, Segel I H
机构信息
Department of Biochemistry and Biophysics, University of California, Davis, California 95616.
出版信息
Plant Physiol. 1982 Jul;70(1):39-45. doi: 10.1104/pp.70.1.39.
Abstract
ATP sulfurylase was purified extensively from green cabbage (Brassica capitata L.) leaf. The enzyme appears to be an asymmetric dimer composed of 57,000 dalton subunits. Initial velocity and product inhibition studies of the forward and reverse reactions point to an obligately ordered kinetic mechanism with MgATP adding before MoO(4) (2-) (or SO(4) (2-)). and MgPPi leaving before AMP + MoO(4) (2-) (or adenosine-5'-phosphosulfate [APS]). The addition of excess purified fungal APS kinase to assay mixtures increased the rate of (35)SO(4) (2-) incorporation and MgPPi formation and extended the linearity of the forward reaction. This effect can be ascribed to the continual removal of APS, a potent product inhibitor of ATP sulfurylase. The specific activities of the enzyme in the APS synthesis, molybdolysis, MgATP synthesis, and sulfate-dependent [(32)P]-MgPPi-MgATP exchange assays were 3.3, 38, 38, and 4.3 micromole product formed per minute per milligram protein, respectively.
摘要
从绿甘蓝(Brassica capitata L.)叶片中大量纯化了ATP硫酸化酶。该酶似乎是由57,000道尔顿亚基组成的不对称二聚体。对正向和反向反应的初始速度和产物抑制研究表明,其动力学机制为严格有序,MgATP在MoO(4) (2-)(或SO(4) (2-))之前添加,MgPPi在AMP + MoO(4) (2-)(或腺苷-5'-磷酸硫酸酯[APS])之前离开。向测定混合物中添加过量纯化的真菌APS激酶可提高(35)SO(4) (2-)掺入率和MgPPi形成率,并延长正向反应的线性度。这种效应可归因于持续去除APS,APS是ATP硫酸化酶的一种强效产物抑制剂。在APS合成、钼酸解、MgATP合成和硫酸盐依赖性[(32)P]-MgPPi-MgATP交换测定中,该酶的比活性分别为每分钟每毫克蛋白质形成3.3、38、38和4.3微摩尔产物。
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