Simianu M, Murakami E, Brewer J M, Ragsdale S W
Department of Biochemistry, The Beadle Center, University of Nebraska, Lincoln 68588-0664, USA.
Biochemistry. 1998 Jul 14;37(28):10027-39. doi: 10.1021/bi9726483.
The heterodisulfide reductase (HDR) from Methanosarcina thermophila was purified to homogeneity from acetate-grown cells. In the absence of detergents, HDR consisted of an eight-protein complex with hydrogenase activity. However, when HDR was purified in the presence of 0.6% Triton X-100, a two-subunit (53 and 27 kDa) high specific activity ( approximately 200 units mg-1) enzyme was obtained that lacked hydrogenase activity. Sedimentation equilibrium experiments demonstrated that HDR has a molecular mass of 206 kDa and a high partial specific volume (0.9 cm3/g), indicating that the purified protein contains a significant amount of bound lipid. Like the HDR from Methanosarcina barkeri [Kunkel, A., Vaupel, M., Heim, S., Thauer, R. K., and Hedderich, R. (1997) Eur. J. Biochem. 244, 226-234], it was found to contain two discrete b-type hemes in the small subunit and two distinct [Fe4S4]2+/1+ clusters in the large subunit. One heme is high-spin and has a high midpoint potential (-23 mV), whereas the other heme apparently is low-spin and exhibits a relatively low midpoint potential (-180 mV). Only the high-spin heme binds CO. The midpoint potentials for the two clusters are -100 and -400 mV. In the fully reduced state, a complicated EPR spectrum with g values of 2.03, 1.97, 1.92, and 1.88 was observed. This spectrum resembles that of 8Fe ferredoxins in the fully reduced state, indicating that the two clusters in HDR are near enough to experience relatively strong dipolar interactions. Kinetic studies in which CO oxidation is coupled to heterodisulfide reduction strongly indicate that a membrane-associated compound is the direct electron donor to HDR. An electron-transfer pathway is presented that postulates a mechanism for coupling electron transport to proton translocation.
嗜热甲烷八叠球菌的异二硫还原酶(HDR)从以乙酸盐为生长底物的细胞中纯化至同质。在没有去污剂的情况下,HDR由具有氢化酶活性的八蛋白复合物组成。然而,当在0.6% Triton X-100存在下纯化HDR时,得到了一种双亚基(53 kDa和27 kDa)的高比活性(约200单位/毫克)酶,该酶缺乏氢化酶活性。沉降平衡实验表明,HDR的分子量为206 kDa,偏比容较高(0.9立方厘米/克),这表明纯化的蛋白质含有大量结合脂质。与巴氏甲烷八叠球菌的HDR[Kunkel, A., Vaupel, M., Heim, S., Thauer, R. K., and Hedderich, R. (1997) Eur. J. Biochem. 244, 226 - 234]一样,发现其小亚基中含有两个离散的b型血红素,大亚基中含有两个不同的[Fe4S4]2+/1+簇。一个血红素是高自旋的,具有较高的中点电位(-23 mV),而另一个血红素显然是低自旋的,表现出相对较低的中点电位(-180 mV)。只有高自旋血红素结合CO。两个簇的中点电位分别为-100和-400 mV。在完全还原状态下,观察到一个复杂的EPR谱,g值为2.03、1.97、1.92和1.88。该谱类似于完全还原状态下的8Fe铁氧化还原蛋白的谱,表明HDR中的两个簇足够接近,能够经历相对较强的偶极相互作用。将CO氧化与异二硫还原偶联的动力学研究强烈表明,一种膜相关化合物是HDR的直接电子供体。提出了一条电子传递途径,假定了一种将电子传递与质子转运偶联的机制。
