Gersonde K, Twilfer H, Overkamp M
Biophys Struct Mech. 1982;8(3):189-211. doi: 10.1007/BF00535459.
The monomeric haemoglobin IV from Chironomus thummi thummi (CTT IV) exhibits an alkaline Bohr-effect and therefore it is an allosteric protein. By substitution of the haem iron for cobalt the O2 half-saturation pressure, measured at 25 degrees C, increases 250-fold. The Bohr-effect is not affected by the replacement of the central atom. The parameters of the Bohr-effect of cobalt CTT IV for 25 degrees C are: inflection point of the Bohr-effect curve at pH 7.1, number of Bohr protons -- deltalog p1/2 (O2)/deltapH = 0.36 mol H+/mol O2 and amplitude of the Bohr-effect curve deltalogp1/2 (O2) = 0.84. The substitution of protoporphyrin for mesoporphyrin causes a 10 nm blue-shift of the visible absorption maxima in both, the native and the cobalt-substituted forms of CTT IV. Furthermore, the replacement of vinyl groups by ethyl groups at position 2 and 4 of the porphyrin system leads to an increase of O2 affinities at 25 degrees C which follows the order: proto less than meso less than deutero for iron and cobalt CTT IV, respectively. Again, the Bohr-effect is not affected by the replacement of protoporphyrin for mesoporphyrin or deuteroporphyrin. The electron spin resonance (ESR) spectra of both, deoxy cobalt proto- and deoxy cobalt meso-CTT IV, are independent of pH. The stronger electron-withdrawing effect by protoporphyrin is reflected by the decrease of the cobalt hyperfine constants coinciding with gparallel = 2.035 and by the low-field shift of gparallel. The ESR spectra of oxy cobalt proto- and oxy cobalt meso-CTT IV are dependent of pH. The cobalt hyperfine constants coinciding with gparallel - 2.078 increase during transition from low to high pH. The pH-induced ESR spectral changes correlate with the alkaline Bohr-effect. Therefore, the two O2 affinity states can be assigned to the low-pH and high-pH ESR spectral species. The low-pH form (low-affinity state) is characterized by a smaller, the high-pH form (high-affinity state) by a larger cobalt hyperfine constant in gparallel. The correlation of the cobalt hyperfine constants of the oxy forms with the O2 affinities is discussed for several monomeric haemoglobins. The Co-O-O bond angle in cobalt oxy CTT IV is characterized by an ozonoid type of binding geometry and varies little during the pH-induced conformation transition. Due to the lack of the distal histidine in CTT IV no additional interaction via hydrogen-bonding with dioxygen is possible; this is reflected by the cobalt hyperfine constants.
来自嗜尸摇蚊(Chironomus thummi thummi,CTT)的单体血红蛋白IV(CTT IV)表现出碱性玻尔效应,因此它是一种别构蛋白。通过用钴取代血红素铁,在25℃下测得的O₂半饱和压力增加了250倍。玻尔效应不受中心原子替换的影响。25℃下钴CTT IV的玻尔效应参数为:玻尔效应曲线的拐点在pH 7.1,玻尔质子数量——Δlog p₁/₂(O₂)/ΔpH = 0.36 mol H⁺/mol O₂,玻尔效应曲线的幅度Δlogp₁/₂(O₂) = 0.84。用中卟啉取代原卟啉会使CTT IV的天然形式和钴取代形式的可见吸收最大值发生10 nm的蓝移。此外,在卟啉系统的2位和4位用乙基取代乙烯基会导致25℃下O₂亲和力增加,顺序如下:铁和钴CTT IV分别为原卟啉小于中卟啉小于次卟啉。同样,玻尔效应不受用中卟啉或次卟啉取代原卟啉的影响。脱氧钴原卟啉-CTT IV和脱氧钴中卟啉-CTT IV的电子自旋共振(ESR)光谱均与pH无关。原卟啉更强的吸电子效应表现为钴超精细常数的降低,g平行 = 2.035,以及g平行的低场位移。氧合钴原卟啉-CTT IV和氧合钴中卟啉-CTT IV的ESR光谱与pH有关。与g平行 = 2.078一致的钴超精细常数在从低pH到高pH的转变过程中增加。pH诱导的ESR光谱变化与碱性玻尔效应相关。因此,两种O₂亲和力状态可归因于低pH和高pH的ESR光谱物种。低pH形式(低亲和力状态)的特征是较小,高pH形式(高亲和力状态)的特征是g平行中的钴超精细常数较大。讨论了几种单体血红蛋白的氧合形式的钴超精细常数与O₂亲和力的相关性。钴氧合CTT IV中的Co-O-O键角具有类臭氧型的结合几何结构,并且在pH诱导的构象转变过程中变化很小。由于CTT IV中缺乏远端组氨酸,不可能通过与双氧的氢键进行额外的相互作用;这在钴超精细常数中得到了体现。
