Recurrent de novo mitochondrial DNA mutations in respiratory chain deficiency
S Lebon, M Chol, P Benit, C Mugnier… - Journal of medical …, 2003 - jmg.bmj.com
Journal of medical genetics, 2003•jmg.bmj.com
Starting from a cohort of 50 NADH-oxidoreductase (complex I) deficient patients, we carried
out the systematic sequence analysis of all mitochondrially encoded complex I subunits
(ND1 to ND6 and ND4L) in affected tissues. This approach yielded the unexpectedly high
rate of 20% mutation identification in our series. Recurrent heteroplasmic mutations included
two hitherto unreported (T10158C and T14487C) and three previously reported mutations
(T10191C, T12706C and A13514G) in children with Leigh or Leigh-like encephalopathy …
out the systematic sequence analysis of all mitochondrially encoded complex I subunits
(ND1 to ND6 and ND4L) in affected tissues. This approach yielded the unexpectedly high
rate of 20% mutation identification in our series. Recurrent heteroplasmic mutations included
two hitherto unreported (T10158C and T14487C) and three previously reported mutations
(T10191C, T12706C and A13514G) in children with Leigh or Leigh-like encephalopathy …
Starting from a cohort of 50 NADH-oxidoreductase (complex I) deficient patients, we carried out the systematic sequence analysis of all mitochondrially encoded complex I subunits (ND1 to ND6 and ND4L) in affected tissues. This approach yielded the unexpectedly high rate of 20% mutation identification in our series. Recurrent heteroplasmic mutations included two hitherto unreported (T10158C and T14487C) and three previously reported mutations (T10191C, T12706C and A13514G) in children with Leigh or Leigh-like encephalopathy. The recurrent mutations consistently involved T→C transitions (p<10−4). This study supports the view that an efficient molecular screening should be based on an accurate identification of respiratory chain enzyme deficiency.
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