Publications by authors named "Ida Namslauer"

A number of missense mutations in subunit I of cytochrome c oxidase (CytcO) have previously been linked to prostate cancer (Petros et al., 2005). To investigate the effects of these mutations at the molecular level, in the present study we prepared four different structural variants of the bacterial Rhodobacter sphaeroides CytcO (cytochrome aa(3)), each carrying one amino-acid residue replacement corresponding to the following substitutions identified in the above-mentioned study: Asn11Ser, Ala122Thr, Ala341Ser and Val380Ile (residues Asn25, Ser168, Ala384 and Val423 in the R.

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Gaining detailed understanding of the energetics of the proton-pumping process in cytochrome c oxidase (CcO) is a problem of great current interest. Despite promising mechanistic proposals, so far, a physically consistent model that would reproduce all the relevant barriers needed to create a working pump has not been presented. In addition, there are major problems in elucidating the origin of key mutational effects and in understanding the nature of the apparent pK(a) values associated with the pH dependencies of specific proton transfer (PT) reactions in CcO.

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In this work we have investigated the effect of a pathogenic mitochondrial DNA mutation found in human colon cells, at a functional-molecular level. The mutation results in the amino-acid substitution Tyr19His in subunit I of the human CytcO and it is associated with respiratory deficiency. It was introduced into Rhodobacter sphaeroides, which carries a cytochrome c oxidase (cytochrome aa(3)) that serves as a model of the mitochondrial counterpart.

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An increasing number of cancer types have been found to be linked to specific mutations in the mitochondrial DNA, which result in specific structural changes of the respiratory enzyme complexes. In this study, we have investigated the effect of 2 such mutations identified in colon cancer patients, leading to the amino acid substitutions Ser458Pro and Gly125Asp in subunit I of cytochrome c oxidase (complex IV) [Greaves et al. (2006) Proc Natl Acad Sci USA 103:714-719].

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Cytochrome c oxidase is the terminal electron acceptor in the respiratory chains of aerobic organisms and energetically couples the reduction of oxygen to water to proton pumping across the membrane. The mechanisms of proton uptake, gating, and pumping have yet to be completely elucidated at the molecular level for these enzymes. For Rhodobacter sphaeroides CytcO (cytochrome aa3), it appears as though the E286 side chain of subunit I is a branching point from which protons are shuttled either to the catalytic site for O2 reduction or to the acceptor site for pumped protons.

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