| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8399023 | Mitochondrion | 2016 | 40 Pages |
Abstract
Mutations in genes coding for mitochondrial helicases such as TWINKLE and DNA2 are involved in mitochondrial myopathies with mtDNA instability in both human and mouse. We show that inactivation of Pif1, a third member of the mitochondrial helicase family, causes a similar phenotype in mouse. pif1Â â/â animals develop a mitochondrial myopathy with respiratory chain deficiency. Pif1 inactivation is responsible for a deficiency to repair oxidative stress-induced mtDNA damage in mouse embryonic fibroblasts that is improved by complementation with mitochondrial isoform mPif167. These results open new perspectives for the exploration of patients with mtDNA instability disorders.
Keywords
GAPDHCytochrome c oxydasetBHPNADH-trMMSnDNAOXPHOSNACSDHMEFCOXqPCRMitochondrial DNANuclear DNAN-acetylcysteineROSMitochondrial diseasemtDNAsuccinate dehydrogenaseOxidative phosphorylationmethyl methanesulfonateComplex Imouse embryonic fibroblastMitochondrial myopathyknock-outquantitative polymerase chain reactionPEOglyceraldehyde 3-phosphate dehydrogenaseReactive oxygen species
Related Topics
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Biochemistry, Genetics and Molecular Biology
Biophysics
Authors
Sylvie Bannwarth, Laetitia Berg-Alonso, Gaëlle Augé, Konstantina Fragaki, Jill E. Kolesar, Françoise Lespinasse, Sandra Lacas-Gervais, Fanny Burel-Vandenbos, Elodie Villa, Frances Belmonte, Jean-François Michiels, Jean-Ehrland Ricci, Romain Gherardi,