Fraga D, Hermolin J, Fillingame R H
Department of Biomolecular Chemistry, University of Wisconsin Medical School, Madison 53706.
J Biol Chem. 1994 Jan 28;269(4):2562-7.
A mutant of ATP synthase subunit c was isolated in which the essential aspartate was exchanged from position 61 on transmembrane helix-2 to position 24 on transmembrane helix-1 (Miller, M. J., Oldenburg, M., and Fillingame, R. H. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 4900-4904). The H+ transporting ATP synthase function of the Ala24-->Asp/Asp61-->Gly mutant is not optimal, and cells grow more slowly than wild type. Twenty-three third-site suppressor mutants with optimized function were isolated in this study. Ten of the optimizing mutations were located to helix-2 of subunit c, and seven of these fell in residues Phe53, Met57, and Met65. The side chains of these three residues are proposed to form a hydrophobic surface on transmembrane helix-2, which participates in the presentation or occlusion of the essential aspartate carboxyl group during proton translocation. The other 13 optimizing mutations were located to subunit a, and 10 of these fell in residues Ala217, Ile221, and Leu224. These three residues are proposed to lie on one face of a transmembrane alpha-helix that includes the essential Arg210 residue. This helix is proposed to interact with the transmembrane bihelical unit of subunit c during protonation and deprotonation of the essential Asp24 in the mutant or Asp61 in wild type.
分离出一种ATP合酶亚基c的突变体,其中跨膜螺旋-2上位置61的必需天冬氨酸被交换到跨膜螺旋-1上位置24(米勒,M.J.,奥尔登堡,M.,和菲林盖姆,R.H.(1990年)《美国国家科学院院刊》87,4900 - 4904)。Ala24→Asp/Asp61→Gly突变体的H⁺转运ATP合酶功能并非最佳,细胞生长比野生型更慢。在本研究中分离出23个具有优化功能的第三位点抑制突变体。其中10个优化突变位于亚基c的螺旋-2上,其中7个位于苯丙氨酸53、甲硫氨酸57和甲硫氨酸65残基处。这三个残基的侧链被认为在跨膜螺旋-2上形成一个疏水表面,在质子转运过程中参与必需天冬氨酸羧基的呈现或封闭。其他13个优化突变位于亚基a上,其中10个位于丙氨酸217、异亮氨酸221和亮氨酸224残基处。这三个残基被认为位于一个跨膜α螺旋的一侧,该螺旋包括必需的精氨酸210残基。该螺旋被认为在突变体中必需的天冬氨酸24或野生型中天冬氨酸61的质子化和去质子化过程中与亚基c的跨膜双螺旋单元相互作用。
