Claire E Brunt scite author profile

Claire E Brunt

3Publications

60Citation Statements Received

87Citation Statements Given

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University of Edinburgh

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Isolation and characterization of the flavin-binding domain of flavocytochrome b2 expressed independently in Escherichia coli

Balme

Brunt

Pallister

et al. 1995

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Flavocytochrome b2 consists of two distinct domains. The N-terminal domain contains protohaem IX and the larger, C-terminal domain contains flavin mononucleotide (FMN). We describe here the isolation of the flavin-binding domain expressed in Escherichia coli independent of the cytochrome domain. The isolated domain is an efficient lactate dehydrogenase with ferricyanide as electron acceptor but reduces cytochrome c, the physiological oxidant for flavocytochrome b2, extremely poorly; electron transfer from the flavin-binding domain to the separately expressed cytochrome domain is undetectable. FMN reduction by lactate occurs as a single exponential process in the isolated flavin-binding domain, in contrast to the biphasic kinetics observed with native flavocytochrome b2.

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The importance of the interdomain hinge in intramolecular electron transfer in flavocytochrome b2

White

Manson

Brunt

et al. 1993

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The two distinct domains of flavocytochrome b2 (L-lactate:cytochrome c oxidoreductase) are connected by a typical hinge peptide. The amino acid sequence of this interdomain hinge is dramatically different in flavocytochromes b2 from Saccharomyces cerevisiae and Hansenula anomala. This difference in the hinge is believed to contribute to the difference in kinetic properties between the two enzymes. To probe the importance of the hinge, an interspecies hybrid enzyme has been constructed comprising the bulk of the S. cerevisiae enzyme but containing the H. anomala flavocytochrome b2 hinge. The kinetic properties of this 'hinge-swap' enzyme have been investigated by steady-state and stopped-flow methods. The hinge-swap enzyme remains a good lactate dehydrogenase as is evident from steady-state experiments with ferricyanide as acceptor (only 3-fold less active than wild-type enzyme) and stopped-flow experiments monitoring flavin reduction (2.5-fold slower than in wild-type enzyme). The major effect of the hinge-swap mutation is to lower dramatically the enzyme's effectiveness as a cytochrome c reductase; kcat. for cytochrome c reduction falls by more than 100-fold, from 207 +/- 10 s-1 (25 degrees C, pH 7.5) in the wild-type enzyme to 1.62 +/- 0.41 s-1 in the mutant enzyme. This fall in cytochrome c reductase activity results from poor interdomain electron transfer between the FMN and haem groups. This can be demonstrated by the fact that the kcat. for haem reduction in the hinge-swap enzyme (measured by the stopped-flow method) has a value of 1.61 +/- 0.42 s-1, identical with the value for cytochrome c reduction and some 300-fold lower than the value for the wild-type enzyme. From these and other kinetic parameters, including kinetic isotope effects with [2-2H]lactate, we conclude that the hinge plays a crucial role in allowing efficient electron transfer between the two domains of flavocytochrome b2.

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Isolation and characterization of the cytochrome domain of flavocytochrome b2 expressed independently in Escherichia coli

Brunt

Cox

Thurgood

et al. 1992

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The cytochrome domain of flavocytochrome b2 (L-lactate dehydrogenase) was expressed in the bacterium Escherichia coli and a purification procedure was developed. When expressed in E. coli, the b2-cytochrome domain contains protohaem IX and has an electronic absorption spectrum identical with that of the cytochrome b2 'core' produced by proteolytic cleavage of the enzyme isolated from yeast. The b2-cytochrome domain isolated from E. coli has an Mr of 10,500 and a redox potential of -31 +/- 2 mV. High-field n.m.r. studies indicate pKa values for the haem propionate groups to be 4.8 and 4.6, consistent with these groups being exposed to solvent rather than buried inside the protein. Using n.m.r. spectroscopy, we have determined an electron self-exchange rate constant for the b2-cytochrome domain of 2.3 x 10(6) M-1.s-1, which is more than two orders of magnitude larger than the value obtained for microsomal cytochrome b5, a homologue of b2-cytochrome domain.

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Claire E Brunt

Isolation and characterization of the flavin-binding domain of flavocytochrome b2 expressed independently in Escherichia coli

The importance of the interdomain hinge in intramolecular electron transfer in flavocytochrome b2

Isolation and characterization of the cytochrome domain of flavocytochrome b2 expressed independently in Escherichia coli

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