Shire S J, Hanania G I, Gurd F R
Biochemistry. 1975 Apr 8;14(7):1352-8. doi: 10.1021/bi00678a002.
The modified Tanford-Kirkwood electrostatic theory (Shire et al., 1974a) was applied to ferrimyoglobins from the following animal species: sperm whale (Physeter catodon), horse, California grey whale (Eschrichtius gibbosus), harbor seal (Phoca vitulina), and California sea lion (Zalophus californianus). Computations were made of the overall hydrogen ion titration curves of the proteins, and of pH and ionic strength variations of ionization equilibria for individual groups in the protein, with particular reference to the hemic acid ionization of the iron bound water molecule. Coordinates and static solvent accessibility were estimated in terms of the sperm whale myoglobin structure. Where possible, theoretical results and experimental data are compared. Some comparative features of charge and ionization properties among the various myoglobins are presented.
修正后的坦福德-柯克伍德静电理论(希尔等人,1974年a)被应用于以下动物物种的亚铁肌红蛋白:抹香鲸(Physeter catodon)、马、加利福尼亚灰鲸(Eschrichtius gibbosus)、港海豹(Phoca vitulina)和加利福尼亚海狮(Zalophus californianus)。对这些蛋白质的整体氢离子滴定曲线以及蛋白质中各个基团电离平衡的pH值和离子强度变化进行了计算,特别参考了与铁结合的水分子的血红素酸电离。根据抹香鲸肌红蛋白的结构估算了坐标和静态溶剂可及性。在可能的情况下,将理论结果与实验数据进行了比较。还介绍了各种肌红蛋白之间电荷和电离性质的一些比较特征。