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Mutant POLG2 disrupts DNA polymerase gamma subunits and causes progressive external ophthalmoplegia.

American journal of human genetics (2006-05-11)
Matthew J Longley, Susanna Clark, Cynthia Yu Wai Man, Gavin Hudson, Steve E Durham, Robert W Taylor, Simon Nightingale, Douglass M Turnbull, William C Copeland, Patrick F Chinnery
RESUMO

DNA polymerase gamma (pol gamma ) is required to maintain the genetic integrity of the 16,569-bp human mitochondrial genome (mtDNA). Mutation of the nuclear gene for the catalytic subunit of pol gamma (POLG) has been linked to a wide range of mitochondrial diseases involving mutation, deletion, and depletion of mtDNA. We describe a heterozygous dominant mutation (c.1352G-->A/p.G451E) in POLG2, the gene encoding the p55 accessory subunit of pol gamma , that causes progressive external ophthalmoplegia with multiple mtDNA deletions and cytochrome c oxidase (COX)-deficient muscle fibers. Biochemical characterization of purified, recombinant G451E-substituted p55 protein in vitro revealed incomplete stimulation of the catalytic subunit due to compromised subunit interaction. Although G451E p55 retains a wild-type ability to bind DNA, it fails to enhance the DNA-binding strength of the p140-p55 complex. In vivo, the disease most likely arises through haplotype insufficiency or heterodimerization of the mutated and wild-type proteins, which promote mtDNA deletions by stalling the DNA replication fork. The progressive accumulation of mtDNA deletions causes COX deficiency in muscle fibers and results in the clinical phenotype.

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Sigma-Aldrich
Taq DNA polimerase, with 10× PCR reaction buffer without MgCl2
Sigma-Aldrich
Taq DNA polimerase, with 10× PCR reaction buffer containing MgCl2
Sigma-Aldrich
DNA Polymerase I from Escherichia coli lysogenic for NM 964, buffered aqueous glycerol solution