Medina M, Vrielink A, Cammack R
Centre for the Study of Metals in Biology and Medicine, King's College, London, England.
Eur J Biochem. 1994 Jun 15;222(3):941-7. doi: 10.1111/j.1432-1033.1994.tb18943.x.
Reduction of the flavin of cholesterol oxidase from Brevibacterium sterolicum, at pH values above 7, by sodium dithionite or light irradiation in the presence of EDTA (either in the presence or absence of deazariboflavin) was found to occur through a stable intermediate state. This intermediate had an optical spectrum characteristic of a flavin anionic semiquinone. The rate and extent of reduction were pH-dependent. No semiquinone intermediate was detected during reduction by these agents at pH values of 6.5 or below or at any pH when dehydroisoandrosterone, a protein substrate analogue, was used as reductant. No intermediate radical was detected during the reoxidation process. Treatment of cholesterol oxidase semiquinone with dehydroisoandrosterone did not convert the semiquinone intermediate to the fully reduced state. The absorption coefficient of oxidised cholesterol oxidase at 470 nm is 10.3 M-1 cm-1. The ESR signal of Brevibacterium sterolicum cholesterol oxidase semiquinone is centred at g = 2.004. The linewidth of the signal was 1.48 mT when the protein was studied in H2O or D2O. These data are in agreement with those reported for anionic semiquinones. The linewidths were the same when measured either at X-band or at S-band frequencies, indicating that line broadening is due to hyperfine interactions. The linewidth decreased to 1.43 mT when the substrate, dehydroisoandrosterone, was added. Electron nuclear double resonance (ENDOR) spectroscopy of cholesterol oxidase semiquinone provided further information about the interactions of the flavin radical with protons. A group of signals, with couplings of 9-12 MHz, is attributed to protons on 8-CH3 (Aiso = 10.9 MHz) and on C6 (Aiso = 9 MHz) of the flavin ring. No change in these hyperfine coupling constants was detected when the protein was studied in D2O. However, the hyperfine coupling constant attributed to protons on 8-CH3 decreased by 0.98 MHz when the ENDOR spectrum of the cholesterol oxidase semiquinone was studied in the presence of dehydroisoandrosterone (Aiso = 9.92 MHz). A second group of signals was observed with hyperfine couplings less than 2.5 MHz. Some of these weak couplings disappeared when the protein was transferred to D2O, or when the substrate, dehydroisoandrosterone, was present. These signals are attributed to displaced water protons, or to exchangeable protons from amino-acid residues on the protein near the flavin binding site, involved in substrate stabilisation.
在pH值高于7的条件下,发现连二亚硫酸钠或在EDTA存在下(无论是否存在脱氮核黄素)进行光照射时,短杆菌属胆固醇氧化酶的黄素会通过一个稳定的中间态被还原。该中间态具有黄素阴离子半醌的光谱特征。还原的速率和程度与pH有关。在pH值为6.5或更低时,或当使用蛋白质底物类似物脱氢异雄酮作为还原剂时,在任何pH下用这些试剂还原过程中均未检测到半醌中间态。在再氧化过程中未检测到中间自由基。用脱氢异雄酮处理胆固醇氧化酶半醌并不能将半醌中间态转化为完全还原态。氧化型胆固醇氧化酶在470 nm处的吸收系数为10.3 M-1 cm-1。短杆菌属胆固醇氧化酶半醌的电子自旋共振(ESR)信号以g = 2.004为中心。当在H2O或D2O中研究该蛋白质时,信号的线宽为1.48 mT。这些数据与报道的阴离子半醌的数据一致。在X波段或S波段频率下测量时,线宽相同,表明线宽展宽是由于超精细相互作用。当加入底物脱氢异雄酮时,线宽降至1.43 mT。胆固醇氧化酶半醌的电子核双共振(ENDOR)光谱提供了关于黄素自由基与质子相互作用的更多信息。一组耦合常数为9 - 12 MHz的信号归因于黄素环8-CH3(Aiso = 10.9 MHz)和C6(Aiso = 9 MHz)上的质子。当在D2O中研究该蛋白质时,这些超精细耦合常数没有变化。然而,当在脱氢异雄酮存在下研究胆固醇氧化酶半醌的ENDOR光谱时,归因于8-CH3上质子的超精细耦合常数降低了0.98 MHz(Aiso = 9.92 MHz)。观察到第二组超精细耦合小于2.5 MHz的信号。当蛋白质转移到D2O中或存在底物脱氢异雄酮时,其中一些弱耦合消失。这些信号归因于被取代的水质子,或来自黄素结合位点附近蛋白质上氨基酸残基的可交换质子,它们参与底物的稳定作用。
