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  • Title: Role of the mitochondrial DNA and calmitine in myopathies.
    Author: Lestienne P, Bataillé N, Lucas-Héron B.
    Journal: Biochim Biophys Acta; 1995 May 24; 1271(1):159-63. PubMed ID: 7599203.
    Abstract:
    We present data on mitochondrial DNA deletions and mitochondrial diseases. The mechanism of their occurrence is discussed on the basis of deletion breakpoints and particularly with the slippage mispairing hypothesis. As the correlation between the genotypes and the phenotypes is not always straightforward, a classification of mitochondrial diseases is suggested according to the genotype (deletions, depletions and duplications, mutations affecting structural genes or tRNA genes) rather than the phenotype. The effect of mitochondrial DNA alterations on the expression of nuclear encoded proteins is presented, and the nucleus can be found to respond differently but in a coordinate way according to the kind of mitochondrial DNA alteration. The search for a nuclear gene affecting the expression of Leber's disease could not show any correlation between the alleles of TAP2 (transporter antigen peptide) and the expression of the disease. Finally, we present new data on another class of myopathies, namely Duchenne muscular dystrophy (DMD), where mitochondria could play an unexpected role in the metabolism of calcium. In some patients with DMD a mitochondrial calcium binding protein that is mainly located in the mitochondrial matrix and which is named 'calmitine' was found to disappear. We have thus cloned its cDNA and found that it was identical with to calsequestrine which is a high-capacity but low-affinity Ca2+ binding protein from the sarcoplasmic reticulum.
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