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相似文献

1
The stoicheiometry of electron transfer by bacterial and plant ferredoxins.细菌和植物铁氧化还原蛋白的电子转移化学计量学。
Biochem J. 1968 Dec;110(3):485-9. doi: 10.1042/bj1100485.
2
The stoicheiometry of electron transfer by bacterial and plant ferredoxins.细菌和植物铁氧化还原蛋白的电子转移化学计量学。
Biochem J. 1968 Sep;109(3):45P. doi: 10.1042/bj1090045pa.
3
Efficiency of ferredoxins and flavodoxins as mediators in systems for hydrogen evolution.铁氧化还原蛋白和黄素氧化还原蛋白作为析氢系统中介体的效率。
Biochem J. 1980 Nov 15;192(2):665-72. doi: 10.1042/bj1920665.
4
[Ferredoxin as cofactor for cyclic photophosphorylation in a cell-free system from the bile alga Anacystis nidulans].[铁氧化还原蛋白作为来自蓝藻Anacystis nidulans的无细胞系统中循环光合磷酸化的辅因子]
Z Naturforsch B. 1969 Dec;24(12):1574-82.
5
[Effect of ferredoxin on electron transfer and photophosphorylation of spinach and bean chloroplasts under air].[铁氧化还原蛋白对空气中菠菜和菜豆叶绿体电子传递及光合磷酸化的影响]
Biochim Biophys Acta. 1970 Apr 7;205(1):95-101. doi: 10.1016/0005-2728(70)90065-4.
6
The electron transport to nitrogenase in Mycobacterium flavum.黄色分枝杆菌中电子向固氮酶的传递。
Arch Microbiol. 1976 Feb;107(1):25-31. doi: 10.1007/BF00427863.
7
Initiation of aerobic oxidation of sulfite by illuminated spinach chloroplasts.光照下菠菜叶绿体引发亚硫酸盐的有氧氧化
Eur J Biochem. 1973 Mar 1;33(2):253-7. doi: 10.1111/j.1432-1033.1973.tb02677.x.
8
The effect of temperature of the rate of photosynthetic electron transfer in chloroplasts of chilling-sensitive and chilling-resistant plants.温度对冷敏感型和抗冷型植物叶绿体光合电子传递速率的影响。
Biochim Biophys Acta. 1973 Jan 18;292(1):152-61. doi: 10.1016/0005-2728(73)90259-4.
9
Photosynthesis: the electron transport system of green plants.光合作用:绿色植物的电子传递系统。
Annu Rev Biochem. 1971;40:197-226. doi: 10.1146/annurev.bi.40.070171.001213.
10
[Correlation between non-cyclic and pseudocyclic electron transport in pea chloroplasts: dependent on the concentration of ferredoxin].[豌豆叶绿体中非循环和伪循环电子传递之间的相关性:取决于铁氧还蛋白的浓度]
Biokhimiia. 1982 Oct;47(10):1695-9.

引用本文的文献

1
[Ferredoxin from Bumilleriopsis filiformis Vischer].[丝状布氏藻(Bumilleriopsis filiformis Vischer)中的铁氧化还原蛋白]
Planta. 1970 Jun;92(2):105-28. doi: 10.1007/BF00385204.
2
Photoreduction of ferredoxin with various electron donors: Support for the Z scheme of photosynthetic electron transport.各种电子供体对铁氧还蛋白的光还原:支持光合电子传递的 Z 方案。
Proc Natl Acad Sci U S A. 1984 Apr;81(7):2070-4. doi: 10.1073/pnas.81.7.2070.
3
Amino acid composition and terminal sequences of ferredoxins from two photosynthetic green bacteria.两种光合绿细菌中铁氧化还原蛋白的氨基酸组成和末端序列
J Bacteriol. 1969 Dec;100(3):1411-2. doi: 10.1128/jb.100.3.1411-1412.1969.
4
Mossbauer spectroscopy of the iron-sulfur proteins.铁硫蛋白的穆斯堡尔光谱学
Proc Natl Acad Sci U S A. 1969 Aug;63(4):1234-8. doi: 10.1073/pnas.63.4.1234.
5
Nitrogenase activity in cell-free extracts of the blue-green alga, Anabaena cylindrica.蓝藻圆柱鱼腥藻无细胞提取物中的固氮酶活性。
J Bacteriol. 1971 Mar;105(3):913-7. doi: 10.1128/jb.105.3.913-917.1971.
6
Physiology and cytological chemistry blue-green algae.蓝藻的生理学与细胞化学
Bacteriol Rev. 1973 Mar;37(1):32-101. doi: 10.1128/br.37.1.32-101.1973.
7
Spectroscopic characterization of ferredoxin from the blue-green alga Microcystis flos-aquae.蓝绿藻铜绿微囊藻中铁氧化还原蛋白的光谱表征
Biochem J. 1972 Oct;129(5):1159-62. doi: 10.1042/bj1291159.
8
Mössbauer effect in the eight-iron ferredoxin from Clostridium pasterurianum. Evidence for the state of the iron atoms.来自巴氏梭菌的八铁铁氧还蛋白中的穆斯堡尔效应。铁原子状态的证据。
Biochem J. 1974 Apr;139(1):97-103. doi: 10.1042/bj1390097.

本文引用的文献

1
Formyltetrahydrofolate synthetase. I. Isolation and crystallization of the enzyme.甲酰四氢叶酸合成酶。I. 该酶的分离与结晶
J Biol Chem. 1962 Sep;237:2898-902.
2
[Observations on swarming of Chromatium okenii].[关于奥氏着色菌群体运动的观察]
Arch Mikrobiol. 1962;42:90-5.
3
ACTION SPECTRUM FOR FERRICYANIDE PHOTOREDUCTION AND REDOX POTENTIAL OF CHLOROPHYLL 683.铁氰化物光还原作用光谱及叶绿素683的氧化还原电位
Proc Natl Acad Sci U S A. 1964 Jun;51(6):1226-31. doi: 10.1073/pnas.51.6.1226.
4
Ferredoxins as electron carriers in photosynthesis and in the biological production and consumption of hydrogen gas.铁氧化还原蛋白在光合作用以及氢气的生物产生和消耗过程中作为电子载体。
Nature. 1962 Aug 11;195:537-43. doi: 10.1038/195537a0.
5
Separation of the light and dark reactions in electron transfer during photosynthesis.光合作用中电子传递过程中光反应与暗反应的分离。
Proc Natl Acad Sci U S A. 1963 Feb 15;49(2):266-70. doi: 10.1073/pnas.49.2.266.
6
The synthesis of porphyrins and bacteriochlorophyll by cell suspensions of Rhodopseudomonas spheroides.球形红假单胞菌细胞悬浮液对卟啉和细菌叶绿素的合成。
Biochem J. 1956 Jan;62(1):78-93. doi: 10.1042/bj0620078.
7
Molecular weight and amino acid composition of Chromatium ferredoxin.嗜铬铁氧化还原蛋白的分子量及氨基酸组成
Biochem Biophys Res Commun. 1967 Aug 7;28(3):467-73. doi: 10.1016/0006-291x(67)90335-x.
8
Ferredoxin and photosynthesis.铁氧化还原蛋白与光合作用。
Science. 1965 Sep 24;149(3691):1460-70. doi: 10.1126/science.149.3691.1460.
9
Photoreduction of ferredoxin and its use in carbon dioxide fixation by a subcellular system from a photosynthetic bacterium.光合细菌亚细胞系统中铁氧化还原蛋白的光还原及其在二氧化碳固定中的应用。
Proc Natl Acad Sci U S A. 1965 Jun;53(6):1420-5. doi: 10.1073/pnas.53.6.1420.
10
Crystalline ferredoxin from the photosynthetic bacterium Chromatium.
Biochim Biophys Acta. 1966 Jun 8;120(2):259-65. doi: 10.1016/0926-6585(66)90345-1.

细菌和植物铁氧化还原蛋白的电子转移化学计量学。

The stoicheiometry of electron transfer by bacterial and plant ferredoxins.

作者信息

Evans M C, Hall D O, Bothe H, Whatley F R

出版信息

Biochem J. 1968 Dec;110(3):485-9. doi: 10.1042/bj1100485.

DOI:10.1042/bj1100485
PMID:4387387
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1187377/
Abstract
  1. The number of electrons carried by ferredoxins from spinach, the blue-green alga Anacystis nidulans, the anaerobic bacterium Clostridium welchii and the photosynthetic bacterium Chromatium was determined. 2. Ferredoxins were reduced by illuminated chloroplasts, and the stoicheiometry of the reoxidation in the dark of the ferredoxins by NADP and benzyl viologen was measured. 3. Spinach and A. nidulans ferredoxins were found to be one-electron carriers, and Cl. welchii and Chromatium ferredoxins were two-electron carriers.
摘要
  1. 测定了来自菠菜、蓝绿藻集胞藻、厌氧细菌韦氏梭菌和光合细菌着色菌的铁氧化还原蛋白所携带的电子数。2. 铁氧化还原蛋白由光照的叶绿体还原,并测定了铁氧化还原蛋白在黑暗中被NADP和苄基紫精再氧化的化学计量。3. 发现菠菜和集胞藻的铁氧化还原蛋白是单电子载体,而韦氏梭菌和着色菌的铁氧化还原蛋白是双电子载体。