Laura Conte scite author profile

We have examined the status of the cytochrome bc1 complex in mitochondrial membranes from yeast mutants in which genes for one or more of the cytochrome bc1 complex subunits were deleted. When membranes from wild‐type yeast were resolved by native gel electrophoresis and analyzed by immunodecoration, the cytochrome bc1 complex was detected as a mixed population of enzymes, consisting of cytochrome bc1 dimers, and ternary complexes of cytochrome bc1 dimers associated with one and two copies of the cytochrome c oxidase complex. When membranes from the deletion mutants were resolved and analyzed, the cytochrome bc1 dimer was not associated with the cytochrome c oxidase complex in many of the mutant membranes, and membranes from some of the mutants contained a common set of cytochrome bc1 subcomplexes. When these subcomplexes were fractionated by SDS/PAGE and analyzed with subunit‐specific antibodies, it was possible to recognize a subcomplex consisting of cytochrome b, subunit 7 and subunit 8 that is apparently associated with cytochrome c oxidase early in the assembly process, prior to acquisition of the remaining cytochrome bc1 subunits. It was also possible to identify a subcomplex consisting of subunit 9 and the Rieske protein, and two subcomplexes containing cytochrome c1 associated with core protein 1 and core protein 2, respectively. The analysis of all the cytochrome bc1 subcomplexes with monospecific antibodies directed against Bcs1p revealed that this chaperone protein is involved in a late stage of cytochrome bc1 complex assembly.

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Evidence that the assembly of the yeast cytochrome bc₁ complex involves the formation of a large core structure in the inner mitochondrial membrane

Zara

Conte

Trumpower

2009

The FEBS Journal

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The assembly status of the cytochrome bc1 complex has been analyzed in distinct yeast deletion strains in which genes for one or more of the bc1 subunits were deleted. In all the yeast strains tested, a bc1 sub‐complex of approximately 500 kDa was found when the mitochondrial membranes were analyzed by blue native electrophoresis. The subsequent molecular characterization of this sub‐complex, carried out in the second dimension by SDS/PAGE and immunodecoration, revealed the presence of the two catalytic subunits, cytochrome b and cytochrome c1, associated with the noncatalytic subunits core protein 1, core protein 2, Qcr7p and Qcr8p. Together, these bc1 subunits build up the core structure of the cytochrome bc1 complex, which is then able to sequentially bind the remaining subunits, such as Qcr6p, Qcr9p, the Rieske iron‐sulfur protein and Qcr10p. This bc1 core structure may represent a true assembly intermediate during the maturation of the bc1 complex; first, because of its wide distribution in distinct yeast deletion strains and, second, for its characteristics of stability, which resemble those of the intact homodimeric bc1 complex. By contrast, the bc1 core structure is unable to interact with the cytochrome c oxidase complex to form respiratory supercomplexes. The characterization of this novel core structure of the bc1 complex provides a number of new elements clarifying the molecular events leading to the maturation of the yeast cytochrome bc1 complex in the inner mitochondrial membrane.

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Biogenesis of the yeast cytochrome bc1 complex

Zara

Conte

Trumpower

2009

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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The mitochondrial respiratory chain is composed of four different protein complexes that cooperate in electron transfer and proton pumping across the inner mitochondrial membrane. The cytochrome bc1 complex, or complex III, is a component of the mitochondrial respiratory chain. This review will focus on the biogenesis of the bc1 complex in the mitochondria of the yeast Saccharomyces cerevisiae. In wild type yeast mitochondrial membranes the major part of the cytochrome bc1 complex was found in association with one or two copies of the cytochrome c oxidase complex. The analysis of several yeast mutant strains in which single genes or pairs of genes encoding bc1 subunits had been deleted revealed the presence of a common set of bc1 sub-complexes. These sub-complexes are represented by the central core of the bc1 complex, consisting of cytochrome b bound to subunit 7 and subunit 8, by the two core proteins associated with each other, by the Rieske protein associated with subunit 9, and by those deriving from the unexpected interaction of each of the two core proteins with cytochrome c1. Furthermore, a higher molecular mass sub-complex is that composed of cytochrome b, cytochrome c1, core protein 1 and 2, subunit 6, subunit 7 and subunit 8. The identification and characterization of all these sub-complexes may help in defining the steps and the molecular events leading to bc1 assembly in yeast mitochondria.

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Further insights into the assembly of the yeast cytochrome bc₁ complex based on analysis of single and double deletion mutants lacking supernumerary subunits and cytochrome b

Zara

Palmisano

Conte

et al. 2004

European Journal of Biochemistry

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The cytochrome bc1 complex of the yeast Saccharomyces cerevisiae is composed of 10 different subunits that are assembled as a symmetrical dimer in the inner mitochondrial membrane. Three of the subunits contain redox centers and participate in catalysis, whereas little is known about the function of the seven supernumerary subunits. To gain further insight into the function of the supernumerary subunits in the assembly process, we have examined the subunit composition of mitochondrial membranes isolated from yeast mutants in which the genes for supernumerary subunits and cytochrome b were deleted and from yeast mutants containing double deletions of supernumerary subunits. Deletion of any one of the genes encoding cytochrome b, subunit 7 or subunit 8 caused the loss of the other two subunits. This is consistent with the crystal structure of the cytochrome bc1 complex that shows that these three subunits comprise its core, around which the remaining subunits are assembled. Absence of the cytochrome b/subunit 7/subunit 8 core led to the loss of subunit 6, whereas cytochrome c1, iron–sulfur protein, core protein 1, core protein 2 and subunit 9 were still assembled in the membrane, although in reduced amounts. Parallel changes in the amounts of core protein 1 and core protein 2 in the mitochondrial membranes of all of the deletion mutants suggest that these can be assembled as a subcomplex in the mitochondrial membrane, independent of the presence of any other subunits. Likewise, evidence of interactions between subunit 6, subunit 9 and cytochrome c1 suggests that a subcomplex between these two supernumerary subunits and the cytochrome might exist.

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A krill oil supplemented diet reduces the activities of the mitochondrial tricarboxylate carrier and of the cytosolic lipogenic enzymes in rats

Ferramosca

Conte

Zara

2011

Animal Physiology Nutrition

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The mitochondrial tricarboxylate carrier supplies cytosol with the carbon units necessary for hepatic lipogenesis. The activities of cytosolic acetyl-CoA carboxylase and fatty acid synthetase are therefore strictly connected to the function of mitochondrial tricarboxylate carrier. Dietary polyunsaturated fatty acids (PUFA) are potent modulators of hepatic lipogenesis. In rats fed with a diet enriched with 2.5% krill oil (KO), a novel source of dietary n-3 PUFA, a time-dependent decrease in the activities of the mitochondrial tricarboxylate carrier and of the lipogenic enzymes was found. The KO induced inhibition of hepatic lipogenesis was more pronounced than that found in fish oil (FO)-fed rats, at least at short feeding times. The decrease in the activity of the mitochondrial tricarboxylate carrier caused by KO was due to a reduced expression of the protein. Furthermore, in the KO-fed animals a greater reduction in the levels of hepatic triglycerides and cholesterol was found in comparison to FO-fed rats.

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Laura Conte

Identification and characterization of cytochrome bc₁ subcomplexes in mitochondria from yeast with single and double deletions of genes encoding cytochrome bc₁ subunits

Evidence that the assembly of the yeast cytochrome bc₁ complex involves the formation of a large core structure in the inner mitochondrial membrane

Biogenesis of the yeast cytochrome bc1 complex

Further insights into the assembly of the yeast cytochrome bc₁ complex based on analysis of single and double deletion mutants lacking supernumerary subunits and cytochrome b

A krill oil supplemented diet reduces the activities of the mitochondrial tricarboxylate carrier and of the cytosolic lipogenic enzymes in rats

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Laura Conte

Identification and characterization of cytochrome bc1 subcomplexes in mitochondria from yeast with single and double deletions of genes encoding cytochrome bc1 subunits

Evidence that the assembly of the yeast cytochrome bc1 complex involves the formation of a large core structure in the inner mitochondrial membrane

Biogenesis of the yeast cytochrome bc1 complex

Further insights into the assembly of the yeast cytochrome bc1 complex based on analysis of single and double deletion mutants lacking supernumerary subunits and cytochrome b

A krill oil supplemented diet reduces the activities of the mitochondrial tricarboxylate carrier and of the cytosolic lipogenic enzymes in rats

Contact Info

Product

Resources

About

Identification and characterization of cytochrome bc₁ subcomplexes in mitochondria from yeast with single and double deletions of genes encoding cytochrome bc₁ subunits

Evidence that the assembly of the yeast cytochrome bc₁ complex involves the formation of a large core structure in the inner mitochondrial membrane

Further insights into the assembly of the yeast cytochrome bc₁ complex based on analysis of single and double deletion mutants lacking supernumerary subunits and cytochrome b