Department of Environmental Science and Technology, Cyprus University of Technology, 3603 Lemesos, Cyprus.
Chemical and Environmental Science Department and Materials & Surface Science Institute, University of Limerick, Limerick, Ireland.
J Biol Chem. 2011 Sep 2;286(35):30600-30605. doi: 10.1074/jbc.M111.252213. Epub 2011 Jul 12.
Elucidating the properties of the heme Fe-Cu(B) binuclear center and the dynamics of the protein response in cytochrome c oxidase is crucial to understanding not only the dioxygen activation and bond cleavage by the enzyme but also the events related to the release of the produced water molecules. The time-resolved step-scan FTIR difference spectra show the ν(7a)(CO) of the protonated form of Tyr residues at 1247 cm(-1) and that of the deprotonated form at 1301 cm(-1). By monitoring the intensity changes of the 1247 and 1301 cm(-1) modes as a function of pH, we measured a pK(a) of 7.8 for the observed tyrosine. The FTIR spectral changes associated with the tyrosine do not belong to Tyr-237 but are attributed to the highly conserved in heme-copper oxidases Tyr-136 and/or Tyr-133 residue (Koutsoupakis, K., Stavrakis, S., Pinakoulaki, E., Soulimane, T., and Varotsis, C. (2002) J. Biol. Chem. 277, 32860-32866). The oxygenation of CO by the mixed-valence form of the enzyme revealed the formation of the ∼607 nm P (Fe(IV)=O) species in the pH 6-9 range and the return to the oxidized form without the formation of the 580 nm F form. The data indicate that Tyr-237 is not involved in the proton transfer pathway in the oxygenation of CO by the mixed-valence form of the enzyme. The implication of these results with respect to the role of Tyr-136 and Tyr-133 in proton transfer/gating along with heme a(3) ring D propionate-H(2)O-ring A propionate-Asp-372 site to the exit/output proton channel (H(2)O pool) is discussed.
阐明血红素 Fe-Cu(B)双核中心的性质和细胞色素 c 氧化酶中蛋白质的反应动力学,不仅对于理解酶对氧气的活化和键断裂至关重要,而且对于与产生水分子释放相关的事件也至关重要。时间分辨分步扫描傅里叶变换红外差谱显示,质子化形式的 Tyr 残基的 ν(7a)(CO)在 1247 cm(-1),去质子化形式在 1301 cm(-1)。通过监测 1247 和 1301 cm(-1)模式的强度变化作为 pH 的函数,我们测量了观察到的酪氨酸的 pK(a)为 7.8。与酪氨酸相关的 FTIR 光谱变化不属于 Tyr-237,而是归因于血红素铜氧化酶中高度保守的 Tyr-136 和/或 Tyr-133 残基(Koutsoupakis,K.,Stavrakis,S.,Pinakoulaki,E.,Soulimane,T.,和 Varotsis,C.(2002)J. Biol. Chem. 277,32860-32866)。混合价态形式的酶对 CO 的氧化揭示了在 pH 6-9 范围内形成了约 607nm P(Fe(IV)=O)物种,并且在没有形成 580nm F 形式的情况下回到氧化形式。数据表明,Tyr-237 不参与混合价态形式的酶对 CO 氧化的质子转移途径。这些结果对于 Tyr-136 和 Tyr-133 在质子转移/门控中的作用以及血红素 a(3)环 D 丙酸酯-H(2)O 环 A 丙酸酯-Asp-372 位点到出口/输出质子通道(H(2)O 池)的影响进行了讨论。