Susanne Griffin, Catherine L Higgins, Tewfik Soulimane, Pernilla Wittung-Stafshede
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引用次数: 21
摘要
为了探讨嗜热热菌(Thermus thermophilus, FdTt)中的七铁铁还蛋白的稳定性,我们研究了其在溶液中的化学和热变性过程。正如晶体结构所预测的那样,FdTt具有极强的抗摄动能力。hydrochloride-induced胍展开过渡显示了一个中点为6.5 m (pH值7,20摄氏度),和上面的热中点沸腾,在114度C FdTt的稳定性在酸性pH值低得多,这表明静电相互作用是重要的高稳定性高博士FdTt展开在碱性pH值,吸收新乐队在520 nm和610 nm出现暂时性的,立方的重排产生的集群成线性3种。一系列铁硫蛋白已被发现适应这些新的簇在体外,虽然没有生物学功能尚未指定。
High thermal and chemical stability of Thermus thermophilus seven-iron ferredoxin. Linear clusters form at high pH on polypeptide unfolding.
To probe the stability of the seven-iron ferredoxin from Thermus thermophilus (FdTt), we investigated its chemical and thermal denaturation processes in solution. As predicted from the crystal structure, FdTt is extremely resistant to perturbation. The guanidine hydrochloride-induced unfolding transition shows a midpoint at 6.5 m (pH 7, 20 degrees C), and the thermal midpoint is above boiling, at 114 degrees C. The stability of FdTt is much lower at acidic pH, suggesting that electrostatic interactions are important for the high stability at higher pH. On FdTt unfolding at alkaline pH, new absorption bands at 520 nm and 610 nm appear transiently, resulting from rearrangement of the cubic clusters into linear three-iron species. A range of iron-sulfur proteins has been found to accommodate these novel clusters in vitro, although no biological function has yet been assigned.
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