氧气和一氧化碳与血红素及血红蛋白的结合。

Binding of O2 and CO to hemes and hemoproteins.

作者信息

Traylor T G, Berzinis A P

出版信息

Proc Natl Acad Sci U S A. 1980 Jun;77(6):3171-5. doi: 10.1073/pnas.77.6.3171.

DOI:10.1073/pnas.77.6.3171

PMID:6932014

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC349576/

Abstract

Enthalpies and entropies have been determined for the reversible binding of O2 and CO to chelated protoheme, a compound having a covalently attached imidazole bound to the iron. The values, based upon 1 atm standard state, are delta HO2 = -14.0 kcal (1 kcal = 4.18 kJ)/mol, delta SO2 = -35 eu, delta HCO = -17.5 kcal/mol, delta SCO = -34 eu, delta H identical to O2 = 21 kcal/mol (dissociation), and delta H identical to CO = 25 kcal/mol (dissociation). The similarity of these values to those of high-affinity hemoproteins such as isolated hemoglobin chains or R-state hemoglobin (delta HO2 = -13.5, delta HCO = -17.5) show that this model compound accurately mimics the dynamic behavior of these hemoproteins, in contrast to the behavior of other, more elaborate, model compounds. The enthalpy of the replacement of O2 by CO, delta HM, is 3.5 kcal/mol, abut the same as that of R-state hemoglobin. This result obtained with the model compound which most resembles the hemoglobin active site, indicates that distal side steric effects in these hemoproteins neither decrease CO affinity nor differentiate between the binding of CO anmd O2. Consequences of these findings in the binding of O2 and CO to hemoproteins are discussed.

摘要

已经测定了氧气（O₂）和一氧化碳（CO）与螯合原血红素可逆结合的焓和熵，螯合原血红素是一种化合物，其咪唑通过共价键连接到铁上。基于1个标准大气压的标准状态，这些值分别为：ΔH(O₂)= -14.0千卡（1千卡 = 4.18千焦）/摩尔，ΔS(O₂)= -35熵单位，ΔH(CO)= -17.5千卡/摩尔，ΔS(CO)= -34熵单位，ΔH(≡O₂)= 21千卡/摩尔（解离），以及ΔH(≡CO)= 25千卡/摩尔（解离）。这些值与高亲和力血红蛋白（如分离的血红蛋白链或R态血红蛋白，ΔH(O₂)= -13.5，ΔH(CO)= -17.5）的值相似，这表明该模型化合物准确地模拟了这些血红蛋白的动态行为，这与其他更复杂的模型化合物的行为形成对比。用CO取代O₂的焓ΔH(M)为3.5千卡/摩尔，与R态血红蛋白的相近。在与血红蛋白活性位点最相似的模型化合物上得到的这一结果表明，这些血红蛋白远端的空间效应既不会降低CO的亲和力，也不会区分CO和O₂的结合。本文讨论了这些发现对O₂和CO与血红蛋白结合的影响。

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