通过位点特异性化学修饰和阴离子结合对细胞色素c电子自交换的调节。

The modulation of cytochrome c electron self-exchange by site-specific chemical modification and anion binding.

作者信息

Concar D W, Hill H A, Moore G R, Whitford D, Williams R J

出版信息

FEBS Lett. 1986 Sep 29;206(1):15-9. doi: 10.1016/0014-5793(86)81331-x.

PMID:3019766

Abstract

The site-specific chemical modification of horse heart cytochrome c at Lys-13 and -72 using 4-chloro-3,5-dinitrobenzoic acid (CDNB) increases the electron self-exchange rate of the protein. In the presence of 0.24 M cacodylate (pH* 7.0) the electron self-exchange rate constants, kex, measured by a 1H NMR saturation transfer method at 300 K, are 600, 6 X 10(3) and 6 X 10(4) M-1 X s-1 for native, CDNP-K13 and CDNP-K72 cytochromes c respectively. Repulsive electrostatic interactions, which inhibit cytochrome c electron self-exchange, are differentially affected by modification. Measurements of 1H NMR line broadening observed with partially oxidised samples of native cytochrome c show that ATP and the redox inert multivalent anion Co(CN)3-6 catalyse electron self-exchange. At saturation a limiting value of approximately 1.4 X 10(5) M-1 X s-1 is observed for both anions.

摘要

使用4-氯-3,5-二硝基苯甲酸（CDNB）对马心细胞色素c的赖氨酸-13和-72位点进行位点特异性化学修饰，可提高该蛋白质的电子自交换速率。在0.24 M二甲胂酸盐（pH* 7.0）存在的情况下，通过1H NMR饱和转移法在300 K下测得的天然型、CDNP-K13和CDNP-K72细胞色素c的电子自交换速率常数kex分别为600、6×10³和6×10⁴ M⁻¹·s⁻¹。抑制细胞色素c电子自交换的排斥性静电相互作用受修饰的影响不同。对天然细胞色素c部分氧化样品观察到的1H NMR谱线展宽测量表明，ATP和氧化还原惰性多价阴离子Co(CN)₆³⁻催化电子自交换。在饱和时，两种阴离子均观察到约1.4×10⁵ M⁻¹·s⁻¹的极限值。

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通过位点特异性化学修饰和阴离子结合对细胞色素c电子自交换的调节。

The modulation of cytochrome c electron self-exchange by site-specific chemical modification and anion binding.

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