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1
Anaerobic energy-yielding reaction associated with transhydrogenation from glycerol 3-phosphate to fumarate by an Escherichia coli system.
J Bacteriol. 1975 Dec;124(3):1282-7. doi: 10.1128/jb.124.3.1282-1287.1975.
2
Anaerobic transport of amino acids coupled to the glycerol-3-phosphate-fumarate oxidoreductase system in a cytochrome-deficient mutant of Escherichia coli.
Biochim Biophys Acta. 1976 Mar 12;423(3):450-61. doi: 10.1016/0005-2728(76)90200-0.
3
Enzyme complex which couples glycerol-3-phosphate dehydrogenation to fumarate reduction in Escherichia coli.
J Bacteriol. 1973 May;114(2):767-71. doi: 10.1128/jb.114.2.767-771.1973.
4
Transport of sugars and amino acids in bacteria. XV. Comparative studies on the effects of various energy poisons on the oxidative and phosphorylating activities and energy coupling reactions for the active transport systems for amino acids in E. coli.
J Biochem. 1975 Jul;78(1):165-79.
5
Electron transport chain from glycerol 3-phosphate to nitrate in Escherichia coli.
J Bacteriol. 1975 Dec;124(3):1288-94. doi: 10.1128/jb.124.3.1288-1294.1975.
6
Improving 1,3-propanediol production from glycerol in a metabolically engineered Escherichia coli by reducing accumulation of sn-glycerol-3-phosphate.
Biotechnol Prog. 2002 Jul-Aug;18(4):694-9. doi: 10.1021/bp020281+.
7
Anaerobic L- -glycerophosphate dehydrogenase of Escherichia coli: its genetic locus and its physiological role.
J Bacteriol. 1971 Dec;108(3):1224-34. doi: 10.1128/jb.108.3.1224-1234.1971.
8
Proton translocation associated with anaerobic transhydrogenation from glycerol 3-phosphate to fumarate in Escherichia coli.
Biochem Biophys Res Commun. 1978 Aug 29;83(4):1570-5. doi: 10.1016/0006-291x(78)91400-6.
9
Regulation of glycerol catabolism in Klebsiella aerogenes.
J Bacteriol. 1974 Jul;119(1):50-6. doi: 10.1128/jb.119.1.50-56.1974.
10
Reduced nicotinamide adenine dinucleotide dependent reduction of fumarate coupled to membrane energization in a cytochrome deficient mutant of Escherichia coli K12.
Biochim Biophys Acta. 1975 Aug 11;396(2):229-41. doi: 10.1016/0005-2728(75)90037-7.

引用本文的文献

1
Analysis of the Actinobacillus pleuropneumoniae ArcA regulon identifies fumarate reductase as a determinant of virulence.
Infect Immun. 2008 Jun;76(6):2284-95. doi: 10.1128/IAI.01540-07. Epub 2008 Mar 31.
2
Potential use of sugar binding proteins in reactors for regeneration of CO2 fixation acceptor D-Ribulose-1,5-bisphosphate.
Microb Cell Fact. 2004 Jun 2;3(1):7. doi: 10.1186/1475-2859-3-7.
3
Trimethylamine oxide respiration in Proteus sp. strain NTHC153: electron transfer-dependent phosphorylation and L-serine transport.
J Bacteriol. 1982 Jan;149(1):22-8. doi: 10.1128/jb.149.1.22-28.1982.
4
Dimethylsulphoxide and trimethylamine oxide respiration of Proteus vulgaris. Evidence for a common terminal reductase system.
Arch Microbiol. 1984 Nov;140(1):74-8. doi: 10.1007/BF00409774.
5
The respiratory chains of Escherichia coli.
Microbiol Rev. 1984 Sep;48(3):222-71. doi: 10.1128/mr.48.3.222-271.1984.
6
Use of phi(glp-lac) in studies of respiratory regulation of the Escherichia coli anaerobic sn-glycerol-3-phosphate dehydrogenase genes (glpAB).
J Bacteriol. 1984 Feb;157(2):591-8. doi: 10.1128/jb.157.2.591-598.1984.
7
Purification and properties of dihydroxyacetone kinase from Klebsiella pneumoniae.
J Bacteriol. 1984 Oct;160(1):55-60. doi: 10.1128/jb.160.1.55-60.1984.
8
Escherichia coli mutant with altered respiratory control of the frd operon.
J Bacteriol. 1985 Mar;161(3):1023-8. doi: 10.1128/jb.161.3.1023-1028.1985.
9
Three classes of Escherichia coli mutants selected for aerobic expression of fumarate reductase.
J Bacteriol. 1986 Dec;168(3):1415-21. doi: 10.1128/jb.168.3.1415-1421.1986.
10
Tetrathionate reduction and production of hydrogen sulfide from thiosulfate.
Microbiol Rev. 1987 Jun;51(2):192-205. doi: 10.1128/mr.51.2.192-205.1987.

本文引用的文献

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Protein measurement with the Folin phenol reagent.
J Biol Chem. 1951 Nov;193(1):265-75.
2
A FUMARATE REDUCTASE IN ESCHERICHIA COLI DISTINCT FROM SUCCINATE DEHYDROGENASE.
J Biol Chem. 1963 Nov;238:3770-4.
3
Determination of organic phosphorus compounds by phosphate analysis.
Methods Biochem Anal. 1956;3:1-22. doi: 10.1002/9780470110195.ch1.
4
Energy linked nicotinamide adenine dinucleotide transhydrogenase in a mutant of Escherichia coli K12 lacking membrane Mg(2+)&z.sbnd;Ca(2+)-activated adenosine triphosphatase.
FEBS Lett. 1972 May 1;22(2):197-199. doi: 10.1016/0014-5793(72)80043-7.
5
Anaerobic L- -glycerophosphate dehydrogenase of Escherichia coli: its genetic locus and its physiological role.
J Bacteriol. 1971 Dec;108(3):1224-34. doi: 10.1128/jb.108.3.1224-1234.1971.
6
Second pyridine nucleotide-independent 1-alpha-glycerophosphate dehydrogenase in Escherichia coli K-12.
J Bacteriol. 1969 Nov;100(2):1133-5. doi: 10.1128/jb.100.2.1133-1135.1969.
7
Anaerobic transport in Escherichia coli membrane vesicles.
Proc Natl Acad Sci U S A. 1973 Dec;70(12):3376-81. doi: 10.1073/pnas.70.12.3376.
8
Three kinds of controls affecting the expression of the glp regulon in Escherichia coli.
J Bacteriol. 1973 Sep;115(3):816-23. doi: 10.1128/jb.115.3.816-823.1973.
9
Stoicheiometry of lactose-H+ symport across the plasma membrane of Escherichia coli.
Biochem J. 1973 Mar;132(3):587-92. doi: 10.1042/bj1320587.
10
Energy-dependent masking of substrate binding sites of the lactose permease of Escherichia coli.
Biochim Biophys Acta. 1973 Apr 25;307(1):197-211. doi: 10.1016/0005-2736(73)90037-0.

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