Topography in relation to activity of the F1-ATPase of Micrococcus lysodeikticus (M. luteus): a study using trypsin digestion and hydrophobic interaction chromatography.

Journal of applied biochemistry Pub Date : 1985-02-01
J P Pivel, A Marquet, E Muñoz
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Abstract

Micrococcus lysodeikticus (M. luteus) ATPase digested in a controlled manner with trypsin behaves like the native protein when chromatographed on alkyl agarose supports. The enzyme immobilized on the supports through noncovalent interaction is able to hydrolyze ATP with a specific activity similar to that of native membrane-bound ATPase. However, the response of M. lysodeikticus ATPase to the interaction with the hydrophobic columns can be modified by changing the protein-ligand ratio. These results support the notion that the catalytic site of M. lysodeikticus ATPase is not involved in the interaction with alkyl agarose, but rather that binding of the ATPase to the hydrophobic columns takes place through polypeptide or protein domains other than those which mediate binding to the native membranes, since they are very easily modified by trypsin. It is proposed that the alpha subunit plays a role in the interaction of the bacterial ATPase with hydrophobic ligands. These results are discussed in relation to the topography of the enzyme as established previously.

溶血微球菌(M. luteus) f1 - atp酶活性与地形图的关系:一项利用胰蛋白酶消化和疏水相互作用色谱的研究。
溶血微球菌(M. luteus)在胰蛋白酶的控制下,atp酶在烷基琼脂糖载体层析时表现得像天然蛋白。通过非共价相互作用固定在载体上的酶能够水解ATP,其特异性活性与天然膜结合ATP酶相似。然而,通过改变蛋白与配体的比例,可以改变溶歧杆菌atp酶对疏水柱相互作用的反应。这些结果支持了M. lysodeikticus atp酶的催化位点不参与与烷基脂糖的相互作用,而是通过多肽或蛋白质结构域与疏水柱结合,而不是介导与天然膜结合的结构域,因为它们很容易被胰蛋白酶修饰。有人提出,α亚基在细菌atp酶与疏水配体的相互作用中起作用。这些结果讨论了关系的酶的地形,如前所述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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