细胞色素c氧化酶混合配体及部分还原的氰化物结合衍生物中细胞色素a3的低自旋铁形式
Low-spin ferric forms of cytochrome a3 in mixed-ligand and partially reduced cyanide-bound derivatives of cytochrome c oxidase.
作者信息
Hill B C, Brittain T, Eglinton D G, Gadsby P M, Greenwood C, Nicholls P, Peterson J, Thomson A J, Woon T C
出版信息
Biochem J. 1983 Oct 1;215(1):57-66. doi: 10.1042/bj2150057.
Optical-absorption-, e.p.r.- and m.c.d. (magnetic-circular-dichroism)-spectroscopic measurements were made on liganded derivatives of oxidized and partially reduced cytochrome c oxidase. When NO was added to oxidized cyanide-bound cytochrome c oxidase, no changes occurred in the optical-absorption difference spectrum. In contrast, NO induced reduction of cytochrome a3 and formation of the nitrosylferrohaem species when the oxidized resting enzyme was the starting material. E.p.r. spectroscopy of the NO-treated oxidized cyanide-bound enzyme revealed the presence of a low-spin haem signal at g = 3.40, whereas the g = 3.02 and g = 2.0 signals of the oxidized enzyme remained unchanged. Both haem groups in this species are e.p.r.-detectable simultaneously. Examination of an identical sample by m.c.d. spectroscopy in the near-i.r. region identified two distinct low-spin species at 1565 and 1785 nm. Irradiation with white light of the NO-treated cyanide-bound sample at 10K resulted in the disappearance of the g = 3.40 e.p.r. signal and the m.c.d. signal at 1785 nm, whereas a band at 1950nm increased in intensity. When the photolysed sample was warmed to 50K and held in the dark for 15 min, the original spectrum returned. Magnetization studies of the 1785nm m.c.d. band support the assignment of this signal to the same metal centre that gives rise to the g = 3.40 e.p.r. signal. The effect of NO on the oxidized cyanide-bound enzyme was compared with that obtained when the oxidized cyanide-bound species was taken to the partially reduced state. Cytochrome a3 is e.p.r.-detectable with a g-value of 3.58 [Johnson, Eglinton, Gooding, Greenwood & Thomson (1981) Biochem. J. 193, 699-708]. Its near-i.r. m.c.d. spectrum shifts from 1950nm in the oxidized cyanide-bound enzyme to 1545nm on addition of reductant. A scheme is advanced for the structure of the cytochrome a3-CuB site that allows for cyanide binding to Fea3 and NO binding to CuB. Cyanide is the bridging ligand in the ferromagnetically coupled cytochrome a3-CuB pair of oxidized cyanide-bound cytochrome c oxidase. The bridged structure and the magnetic interaction are broken when the enzyme is partially reduced. However, when NO binds to CuB the cyanide bridge remains intact, but now the odd spins of NO and CuB are magnetically coupled.
对氧化态和部分还原态细胞色素c氧化酶的配位衍生物进行了光吸收光谱、电子顺磁共振(e.p.r.)光谱和磁圆二色性(m.c.d.)光谱测量。当向氧化态的氰化物结合型细胞色素c氧化酶中加入一氧化氮(NO)时,光吸收差光谱没有变化。相比之下,当以氧化态的静止酶为起始材料时,NO会诱导细胞色素a3还原并形成亚硝酰亚铁血红素物种。对经NO处理的氧化态氰化物结合型酶进行的电子顺磁共振光谱显示,在g = 3.40处存在低自旋血红素信号,而氧化态酶的g = 3.02和g = 2.0信号保持不变。该物种中的两个血红素基团可同时通过电子顺磁共振检测到。在近红外区域通过磁圆二色性光谱对相同样品进行检测,在1565和1785 nm处鉴定出两种不同的低自旋物种。在10K下用白光照射经NO处理的氰化物结合型样品,导致g = 3.40的电子顺磁共振信号和1785 nm处的磁圆二色性信号消失,而1950 nm处的一条谱带强度增加。当光解后的样品加热到50K并在黑暗中保持15分钟时,原始光谱恢复。对1785 nm磁圆二色性谱带的磁化研究支持将该信号归属于产生g = 3.40电子顺磁共振信号的同一金属中心。将NO对氧化态氰化物结合型酶的影响与将氧化态氰化物结合型物种转变为部分还原态时的影响进行了比较。细胞色素a3可通过电子顺磁共振检测到,其g值为3.58 [约翰逊、埃格林顿、古丁、格林伍德和汤姆森(1981年),《生物化学杂志》193卷,699 - 708页]。其近红外磁圆二色性光谱从氧化态氰化物结合型酶中的1950 nm在加入还原剂后移至1545 nm。提出了一种细胞色素a3 - CuB位点的结构方案,该方案允许氰化物与Fea3结合,NO与CuB结合。氰化物是氧化态氰化物结合型细胞色素c氧化酶中铁磁耦合的细胞色素a3 - CuB对中的桥连配体。当酶部分还原时,桥连结构和磁相互作用被破坏。然而,当NO与CuB结合时,氰化物桥保持完整,但现在NO和CuB的奇数自旋发生磁耦合。
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