Increasing the electron-transfer ability of Cyanidioschyzon merolae ferredoxin by a one-point mutation - A high resolution and Fe-SAD phasing crystal structure analysis of the Asp58Asn mutant

UenoY.; MatsumotoT.; YamanoA.; ImaiT.; MorimotoY.

首页> 外文期刊>Biochemical and Biophysical Research Communications >Increasing the electron-transfer ability of Cyanidioschyzon merolae ferredoxin by a one-point mutation - A high resolution and Fe-SAD phasing crystal structure analysis of the Asp58Asn mutant

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Increasing the electron-transfer ability of Cyanidioschyzon merolae ferredoxin by a one-point mutation - A high resolution and Fe-SAD phasing crystal structure analysis of the Asp58Asn mutant

机译：通过单点突变提高花青氰化铁氧化还原蛋白的电子转移能力-Asp58Asn突变体的高分辨率和Fe-SAD相晶体结构分析

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Cyanidioschyzon merolae (Cm) is a single cell red algae that grows in rather thermophilic (40-50°C) and acidic (pH 1-3) conditions. Ferredoxin (Fd) was purified from this algae and characterized as a plant-type [2Fe-2S] Fd by physicochemical techniques. A high resolution (0.97?) three-dimensional structure of the CmFd D58N mutant molecule has been determined using the Fe-SAD phasing method to clarify the precise position of the Asn58 amide, as this substitution increases the electron-transfer ability relative to wild-type CmFd by a factor of 1.5. The crystal structure reveals an electro-positive surface surrounding Asn58 that may interact with ferredoxin NADP+ reductase or cytochrome c.

机译：Cyanidioschyzon merolae（Cm）是单细胞红藻，在相当高温（40-50°C）和酸性（pH 1-3）的条件下生长。从该藻中纯化铁氧还蛋白（Fd），并通过理化技术将其表征为植物型[2Fe-2S] Fd。已使用Fe-SAD定相方法确定了CmFd D58N突变分子的高分辨率（0.97？）三维结构，以阐明Asn58酰胺的精确位置，因为这种取代增加了相对于野生型酰胺的电子转移能力。输入CmFd的系数为1.5。晶体结构揭示了Asn58周围的正电表面，该表面可能与铁氧还蛋白NADP +还原酶或细胞色素c相互作用。

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《Biochemical and Biophysical Research Communications》 |2013年第4期|共4页
作者
UenoY.; MatsumotoT.; YamanoA.; ImaiT.; MorimotoY.;
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Electron transfer ability; High resolution analysis; Plant type ferredoxin; X-ray analysis;

机译：电子传递能力;高分辨率分析;植物型铁氧还蛋白;X射线分析;

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1. Increasing the electron-transfer ability of Cyanidioschyzon merolae ferredoxin by a one-point mutation - A high resolution and Fe-SAD phasing crystal structure analysis of the Asp58Asn mutant [J] . UenoY., MatsumotoT., YamanoA., Biochemical and Biophysical Research Communications . 2013,第4期

机译：通过单点突变提高花青氰化铁氧化还原蛋白的电子转移能力-Asp58Asn突变体的高分辨率和Fe-SAD相晶体结构分析
2. Cyanidioschyzon merolae ferredoxin: A high resolution crystal structure analysis and its thermal stability [J] . FEBS Letters . 2011,第9期

机译：Cyanidioschyzon merolae ferredoxin：高分辨率晶体结构分析及其热稳定性
3. Structure-function relationships in Anabaena ferredoxin: correlations between X-ray crystal structures, reduction potentials, and rate constants of electron transfer to ferredoxin:NADP+ reductase for site-specific ferredoxin mutants [J] . Hurley JK, Weber-Main AM, Stankovich MT, Biochemistry . 1997,第37期

机译：鱼腥草铁氧还蛋白的结构-功能关系：位点特异性铁氧还蛋白突变体的X射线晶体结构，还原电位和电子转移至铁氧还蛋白的速度常数之间的相关性：NADP +还原酶
4. Crystal Structures of Wild-type and Mutants of Pea Ferredoxin: NADP~+ Reductase: A Productive NADP~+ Binding Mode and Its Mechanistic Significance [C] . Deng Z., Arkaki A.K., Carrillo N., International symposium on mechanisms of enzymatic catalysis . 1998

机译：豌豆铁氧还蛋白野生型及其突变体的晶体结构：NADP〜+还原酶：一种有效的NADP〜+结合方式及其机理学意义
5. Crystal structures of oncogenic, suppressor and rescued p53 core domain mutants suggest the rescue mechanisms of global suppressor mutations [D] . Wang, Ying 2007

机译：致癌，抑制和挽救的p53核心域突变体的晶体结构表明了整体抑制突变的挽救机制
6. Crystallization and preliminary X-ray analysis of the electron-transfer complex of Rieske-type 2Fe–2S ferredoxin and NADH-dependent ferredoxin reductase derived from Acidovorax sp. strain KKS102 [O] . Miki Senda, Shinya Kishigami, Shigenobu Kimura, 2007

机译：Rieske型2Fe–2S铁氧还蛋白和源自Acidovorax sp的NADH依赖性铁氧还蛋白还原酶的电子转移复合物的结晶和初步X射线分析。菌株KKS102
7. Cyanidioschyzon merolae ferredoxin: A high resolution crystal structure analysis and its thermal stability [O] . Yamaoka Asami, Ozawa Yukiko, Ueno Yuko, 2011

机译：Cyanidioschyzon merolae ferredoxin：高分辨率晶体结构分析及其热稳定性

Increasing the electron-transfer ability of Cyanidioschyzon merolae ferredoxin by a one-point mutation - A high resolution and Fe-SAD phasing crystal structure analysis of the Asp58Asn mutant

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