通过稳定同位素标记和共振拉曼光谱研究细胞色素bo双加氧还原位点处酪氨酸-288的作用。

Role of Tyr-288 at the dioxygen reduction site of cytochrome bo studied by stable isotope labeling and resonance raman spectroscopy.

作者信息

Uchida Takeshi, Mogi Tatsushi, Nakamura Hiro, Kitagawa Teizo

机构信息

Okazaki Institute for Integrative Bioscience, National Institutes of Natural Sciences, Myodaiji, Okazaki, Aichi 444-8787, Japan.

出版信息

J Biol Chem. 2004 Dec 17;279(51):53613-20. doi: 10.1074/jbc.M409719200. Epub 2004 Oct 1.

DOI:10.1074/jbc.M409719200

PMID:15465820

Abstract

To explore the role of a cross-link between side chains of Tyr-288 and His-284 at the heme-copper binuclear center, we prepared cytochrome bo where d(4)-Tyr, 1-[(13)C]Tyr, or 4-[(13)C]Tyr has been biosynthetically incorporated. Unexpectedly, the d(4)-Tyr-labeled enzyme showed a large decrease in the ubiquinol-1 oxidase and CO binding activities. Optical absorption and resonance Raman spectra identified the defect in the distal side of the heme-copper binuclear center. In the CO-bound d(4)-Tyr-labeled enzyme, a large fraction of the nu((Fe-C)) mode was shifted from the normal 520-cm(-1) band to a broad band centered around 491 cm(-1), as found for the Y288F mutant. Our results suggested that the substitution of ring hydrogens of Tyr-288 with deuteriums slows down the formation of the His-Tyr cross-link essential for dioxygen reduction at the binuclear center.

摘要

为了探究血红素 - 铜双核中心酪氨酸 -288（Tyr-288）和组氨酸 -284（His-284）侧链之间交联的作用，我们制备了生物合成掺入了d(4)-酪氨酸、1-[(13)C]酪氨酸或4-[(13)C]酪氨酸的细胞色素bo。出乎意料的是，d(4)-酪氨酸标记的酶在泛醇 -1氧化酶活性和一氧化碳结合活性方面大幅下降。光吸收和共振拉曼光谱确定了血红素 - 铜双核中心远端的缺陷。在一氧化碳结合的d(4)-酪氨酸标记的酶中，很大一部分ν((Fe-C))模式从正常的520 cm(-1)带转移到了以491 cm(-1)为中心的宽带上，这与Y288F突变体的情况相同。我们的结果表明，用氘取代Tyr-288的环氢会减缓双核中心双加氧还原所必需的His-Tyr交联的形成。

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通过稳定同位素标记和共振拉曼光谱研究细胞色素bo双加氧还原位点处酪氨酸-288的作用。

Role of Tyr-288 at the dioxygen reduction site of cytochrome bo studied by stable isotope labeling and resonance raman spectroscopy.

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