哺乳類ヘモグロビンの協同作用とボーア効果は協調して酸素の獲得と輸送を行っている ―規範タンパク質における新たな視点―

抄録

The slope of the oxygen equilibrium curve (OEC) of mammalian-hemoglobin (Hb) is maximized at S (oxygen saturation) value of 0.38, and the slope of the S vs. P/P₅₀ (P is partial oxygen pressure; P₅₀ is P at S = 1/2) plot at a P/P₅₀ value of 1 is one-forth that of the Hill-coefficient (n). OECs of mammalian Hbs are designed to have an identical optimal P₅₀ value for O₂ delivery and the effectiveness of the Bohr shift (shift of OEC upon pH changes) at O₂ loading site. This fact is favorable for uptake and delivery of maximum amount of O₂ for fetal blood. To have the identical optimal P₅₀ value for O₂ delivery and for the efficiency of the Bohr shift, the relationship, PaO₂/PvO₂ = ((n + 1)/(n − 1))^2/n, is required to hold, where PaO₂ and PvO₂ are P for arterial and venous bloods, respectively.