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Literature DB >> 373749

Oxidation--reduction potentials of molybdenum and iron--sulphur centres in nitrate reductase from Escherichia coli.

Abstract

The potentials of the couples Mo(IV)--(Mo(V) and Mo(V)--Mo(VI) in nitrate reductase from Escherichia coli K12 were measured as + 180 mV and + 220 mV respectively at pH 7.14. The potentials associated with two other e.p.r. signals, believed to be due to iron--sulphur centres, were measured as + 50 mV and + 80 mV.

Entities: Chemical Species

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Year: 1979 PMID： 373749 PMCID： PMC1186429 DOI： 10.1042/bj1770757

Source DB: PubMed Journal: Biochem J ISSN： 0264-6021 Impact factor: 3.857

6 in total

1. Electron-paramagnetic-resonance studies on nitrate reductase from Escherichia coli K12.

Authors: S P Vincent; R C Bray
Journal: Biochem J Date: 1978-06-01 Impact factor: 3.857

2. The composition of milk xanthine oxidase.

Authors: L I Hart; M A McGartoll; H R Chapman; R C Bray
Journal: Biochem J Date: 1970-03 Impact factor: 3.857

3. Oxidation--reduction potentials of turkey liver xanthine dehydrogenase and the origins of oxidase and dehydrogenase behaviour in molybdenum-containing hydroxylases.

Authors: M J Barber; R C Bray; R Cammack; M P Coughlan
Journal: Biochem J Date: 1977-05-01 Impact factor: 3.857

4. Spin-spin interaction between molybdenum and one of the iron-sulphur systems of xanthine oxidase and its relevance to the enzymic mechanism.

Authors: D J Lowe; R M Lynden-Bell; R C Bray
Journal: Biochem J Date: 1972-11 Impact factor: 3.857

5. Molybdenum cofactors from molybdoenzymes and in vitro reconstitution of nitrogenase and nitrate reductase.

Authors: P T Pienkos; V K Shah; W J Brill
Journal: Proc Natl Acad Sci U S A Date: 1977-12 Impact factor: 11.205

6. Oxidation-reduction potentials of molybdenum, flavin and iron-sulphur centres in milk xanthine oxidase.

Authors: R Cammack; M J Barber; R C Bray
Journal: Biochem J Date: 1976-08-01 Impact factor: 3.857

6 in total

10 in total

1. X-ray-absorption and electron-paramagnetic-resonance spectroscopic studies of the environment of molybdenum in high-pH and low-pH forms of Escherichia coli nitrate reductase.

Authors: G N George; N A Turner; R C Bray; F F Morpeth; D H Boxer; S P Cramer
Journal: Biochem J Date: 1989-05-01 Impact factor: 3.857

Review 2. Nitrate respiration in relation to facultative metabolism in enterobacteria.

Authors: V Stewart
Journal: Microbiol Rev Date: 1988-06

3. Pyranopterin Coordination Controls Molybdenum Electrochemistry in Escherichia coli Nitrate Reductase.

Authors: Sheng-Yi Wu; Richard A Rothery; Joel H Weiner
Journal: J Biol Chem Date: 2015-08-21 Impact factor: 5.157

4. Electron-paramagnetic-resonance spectroscopy studies on the dissimilatory nitrate reductase from Pseudomonas aeruginosa.

Authors: C Godfrey; C Greenwood; A J Thomson; R C Bray; G N George
Journal: Biochem J Date: 1984-12-01 Impact factor: 3.857

8. Remote Plasma-Induced Synthesis of Self-Assembled MoS₂/Carbon Nanowall Nanocomposites and Their Application as High-Performance Active Materials for Supercapacitors.

Authors: Jin-Ha Shin; Yong-Sup Choi; Hyun-Jae Park
Journal: Nanomaterials (Basel) Date: 2022-04-13 Impact factor: 5.719

9. Electron-paramagnetic-resonance parameters of molybdenum(V) in sulphite oxidase from chicken liver.

Authors: M T Lamy; S Gutteridge; R C Bary
Journal: Biochem J Date: 1980-02-01 Impact factor: 3.857

10. The role of molybdenum in human biology.

Authors: M P Coughlan
Journal: J Inherit Metab Dis Date: 1983 Impact factor: 4.982