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首页 > FEBS letters > The formate:oxygen oxidoreductase supercomplex of Escherichia coli aerobic respiratory...
The formate:oxygen oxidoreductase supercomplex of Escherichia coli aerobic respiratory chain.
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The Escherichia coli formate:oxygen oxidoreductase supercomplex (FdOx) was investigated with respect to function and composition. Formate oxidoreductase activity was detected in blue native polyacrylamide gel electrophoresis (BN-PAGE) resolved membranes of E. coli, which were also capable of cyanide sensitive formate:oxygen oxidoreductase activity. The latter was compromised in strains devoid of specific oxygen reductases, particularly, in those devoid of cytochrome bo3 or bdI. A principal component analysis (PCA) integrating E. coli aerobic respiratory chain gene transcription, enzyme activity and growth dynamics was performed, correlating formate:oxygen oxidoreductase activity and the transcription of the genes encoding cytochromes bo3 and bdI, and corroborating previous evidence that associated these complexes in FdOx.

作者:Pedro M F, Sousa;Marco A M, Videira;Ana M P, Melo

来源:FEBS letters 2013 年 587卷 16期

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The formate:oxygen oxidoreductase supercomplex of Escherichia coli aerobic respiratory chain.
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| 浏览:85
作者:
Pedro M F, Sousa;Marco A M, Videira;Ana M P, Melo
来源:
FEBS letters 2013 年 587卷 16期
标签:
3-(N-Morpholino) propanesulfonic acid AU Aerobic respiratory chain supercomplex BN-PAGE Bacteria Blue native polyacrylamide gel electrophoresis DCPIP DDM Escherichia coli FDH FdOx Formate:oxygen oxidoreductase activity Gene transcription K(3)[Fe(CN)(6)] K(M) MOPS Michaelis Menten constant NADH:quinone oxidoreductase NBT NDH-1 NDH-2 OR Oxygen reductase PCA PMS UQ(1) V(MAX) alternative NADH:quinone oxidoreductase arbitrary units blue native polyacrylamide gel electrophoresis coenzyme Q1, analogue to ubiquinone deNADH deamino-NADH dichlorophenol indophenol dodecyl-β-d-maltoside formate dehydrogenase formate:oxygen oxidoreductase supercomplex maximal velocity nitroblue tetrazolium oxidoreductase phenazine methosulfate potassium ferricyanide principal component analysis
The Escherichia coli formate:oxygen oxidoreductase supercomplex (FdOx) was investigated with respect to function and composition. Formate oxidoreductase activity was detected in blue native polyacrylamide gel electrophoresis (BN-PAGE) resolved membranes of E. coli, which were also capable of cyanide sensitive formate:oxygen oxidoreductase activity. The latter was compromised in strains devoid of specific oxygen reductases, particularly, in those devoid of cytochrome bo3 or bdI. A principal component analysis (PCA) integrating E. coli aerobic respiratory chain gene transcription, enzyme activity and growth dynamics was performed, correlating formate:oxygen oxidoreductase activity and the transcription of the genes encoding cytochromes bo3 and bdI, and corroborating previous evidence that associated these complexes in FdOx.

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