Zhang J H, Kurtz D M
Department of Chemistry, University of Georgia, Athens 30602.
Proc Natl Acad Sci U S A. 1992 Aug 1;89(15):7065-9. doi: 10.1073/pnas.89.15.7065.
A general method is described for substitution of Mn(II) and Co(II) into the diiron sites of hemerythrin and myohemerythrin. Characterizations of these metal-substituted proteins show that their structures closely resemble those of the native proteins. In particular, the four-helix bundle structure appears to be maintained. The apomyohemerythrin retains most of the native helix content but is considerably less stable to denaturation than are the metal-containing proteins. The relative affinities of M(II) for apohemerythrin--namely, Co greater than Fe greater than Mn--parallel the stabilities of the M2myohemerythrins to denaturation by guanidinium chloride. These results indicate that for myohemerythrin (i) the majority of the helical structure found in the native protein does not require incorporation of M(II) and (ii) stabilization of the native structure relative to the fully unfolded structure appears to be due predominantly to M(II)-protein interactions, at least for M = Fe and Co. Incorporation of M(II) also generates unfolding cooperativity in myohemerythrin. This cooperativity can be attributed to interhelical interactions, which are prevented in the apoprotein by solvation of the seven metal ligand residues. The results are consistent with a minimal model for folding/unfolding of myohemerythrin and hemerythrin subunits consisting of the sequential equilibria, N in equilibrium with I in equilibrium with D, between native, intermediate, and fully unfolded states, respectively. The properties of apomyohemerythrin make it a candidate for the intermediate state, I.
本文描述了一种将Mn(II)和Co(II)取代蚯蚓血红蛋白和肌蚯蚓血红蛋白二铁位点的通用方法。对这些金属取代蛋白的表征表明,它们的结构与天然蛋白的结构非常相似。特别是,四螺旋束结构似乎得以保留。脱辅基肌蚯蚓血红蛋白保留了大部分天然螺旋含量,但与含金属蛋白相比,其变性稳定性要低得多。M(II)对脱辅基蚯蚓血红蛋白的相对亲和力,即Co > Fe > Mn,与M2肌蚯蚓血红蛋白对氯化胍变性的稳定性平行。这些结果表明,对于肌蚯蚓血红蛋白,(i)天然蛋白中发现的大部分螺旋结构不需要结合M(II),(ii)相对于完全展开的结构,天然结构的稳定似乎主要归因于M(II)-蛋白相互作用,至少对于M = Fe和Co是这样。M(II)的掺入还在肌蚯蚓血红蛋白中产生了去折叠协同性。这种协同性可归因于螺旋间相互作用,在脱辅基蛋白中,七个金属配体残基的溶剂化阻止了这种相互作用。结果与蚯蚓血红蛋白和肌蚯蚓血红蛋白亚基折叠/去折叠的最小模型一致,该模型分别由天然态、中间态和完全展开态之间的顺序平衡N⇌I⇌D组成。脱辅基肌蚯蚓血红蛋白的性质使其成为中间态I的候选者。