大肠杆菌中细胞色素奥米克戎与氧气的反应。低温动力学和光谱研究。
The reaction of cytochrome omicron in Escherichia coli with oxygen. Low-temperature kinetic and spectral studies.
作者信息
Poole R K, Waring A J, Chance B
出版信息
Biochem J. 1979 Nov 15;184(2):379-89. doi: 10.1042/bj1840379.
Abstract
- The reactions of cytochrome omicron in intact cells of aerobically grown Escherichia coli with O2 and CO have been studied at low temperature. 2. Flash photolysis of CO-liganded cells in the presence of O2 and at temperatures between -79 and -102 degrees C results in the oxidation of kinetically heterogeneous beta-type cytochromes (including cytochrome omicron), but not of cytochrome d. 3. The reaction of reduced cytochrome omicron with O2 involves O2 binding to give intermediate(s) with spectral characteristics similar to that of the reduced oxidase-CO complex. Observation in the alpha-region suggests that unexplained ligand dissociation accompanies the initial O2 binding. 4. At temperatures below -98 degrees C, an 'end point' in the reaction is reached; further reaction and oxidation of cytochrome omicron occurs on raising the temperature. 5. There is a linear relationship between the rate of formation of the oxygen compound and the O2 concentration up to 0.5 mM. The second-order constant for its formation (k+1) is 0.91 M-1.S-1 at -101 degrees C. The reaction is not readily reversible, the value of k-1 being 1.4 X 10(-5) S-1 and the kd 1.5 X 10(-5) M. 6. The energy of activation for this reaction at low temperatures is 29.9kJ (7.1 kcal)/mol. 7. The reaction with O2 is distinguished from that with CO by the markedly lower velocity and high photolytic reversibility of the latter. 8. Comparisons are drawn between the intermediate(s) in the O2 reaction of cytochrome omicron in E. coli and those identified in other bacteria and in the reaction of cytochrome aa3 with O2.
摘要
- 已在低温下研究了需氧生长的大肠杆菌完整细胞中细胞色素奥米克戎与氧气和一氧化碳的反应。2. 在 -79至 -102摄氏度之间,在氧气存在下对一氧化碳配位的细胞进行闪光光解,会导致动力学异质的β型细胞色素(包括细胞色素奥米克戎)被氧化,但细胞色素d不会被氧化。3. 还原型细胞色素奥米克戎与氧气的反应涉及氧气结合,生成具有与还原型氧化酶 - 一氧化碳复合物相似光谱特征的中间体。在α区域的观察表明,初始氧气结合伴随着无法解释的配体解离。4. 在低于 -98摄氏度的温度下,反应达到一个“终点”;升高温度时,细胞色素奥米克戎会进一步反应并被氧化。5. 直至0.5 mM,氧复合物的形成速率与氧气浓度之间存在线性关系。在 -101摄氏度时,其形成的二级常数(k +1)为0.91 M-1·S-1。该反应不易逆转,k -1的值为1.4×10(-5)S-1,kd为1.5×10(-5)M。6. 该反应在低温下的活化能为29.9kJ(7.1 kcal)/mol。7. 与氧气的反应与与一氧化碳的反应不同,后者的速度明显较低且光解可逆性较高。8. 对大肠杆菌中细胞色素奥米克戎与氧气反应的中间体与其他细菌中鉴定出的中间体以及细胞色素aa3与氧气反应的中间体进行了比较。
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