Abstract
Progressive external ophthalmoplegia (PEO) is a heritable mitochondrial disorder characterized by the accumulation of multiple point mutations and large deletions in mtDNA. Autosomal dominant PEO was recently shown to co-segregate with a heterozygous Y955C mutation in the human gene encoding the sole mitochondrial DNA polymerase, DNA polymerase gamma (pol gamma). Since Tyr-955 is a highly conserved residue critical for nucleotide recognition among family A DNA polymerases, we analyzed the effects of the Y955C mutation on the kinetics and fidelity of DNA synthesis by the purified human mutant polymerase in complex with its accessory subunit. The Y955C enzyme retains a wild-type catalytic rate (k(cat)) but suffers a 45-fold decrease in apparent binding affinity for the incoming nucleoside triphosphate (K(m)). The Y955C derivative is 2-fold less accurate for base pair substitutions than wild-type pol gamma despite the action of intrinsic exonucleolytic proofreading. The full mutator effect of the Y955C substitution was revealed by genetic inactivation of the exonuclease, and error rates for certain mismatches were elevated by 10-100-fold. The error-prone DNA synthesis observed for the Y955C pol gamma is consistent with the accumulation of mtDNA mutations in patients with PEO.
Highlights
Active Site Mutation in DNA Polymerase ␥ Associated with Progressive External Ophthalmoplegia Causes Error-prone DNA Synthesis*
As a family A DNA polymerase, pol ␥ is related to Escherichia coli DNA polymerase I and bacteriophage T7 DNA polymerase, and amino acid sequence alignments reveal that Tyr-955 in pol ␥ is equivalent to Tyr-766 in E. coli pol I and Tyr-530 in T7 DNA polymerase
Amino acid sequence alignments (Fig. 1A) and the active site structure of T7 DNA polymerase (Fig. 1B) suggest that Tyr-955 in human pol ␥ is crucial for dNTP binding and fidelity of nucleotide selection
Summary
THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol 277, No 18, Issue of May 3, pp. 15225–15228, 2002. Since Tyr955 is a highly conserved residue critical for nucleotide recognition among family A DNA polymerases, we analyzed the effects of the Y955C mutation on the kinetics and fidelity of DNA synthesis by the purified human mutant polymerase in complex with its accessory subunit. Substitution of Tyr-766 in E. coli pol I with serine has only a minor effect on Km(dNTP), and a slight decrease in kcat is attributed to a 2.5-fold increase in Kd(DNA) [14]. The Y766A- and Y766S-substituted enzymes exhibited a 17-fold increase in deletions between direct repeat sequences [16] These results predict that the Y955C substitution may lower the catalytic efficiency and/or the fidelity of human pol ␥. In this report we investigate the effects of the Y955C mutation in human pol ␥ on the kinetics and fidelity of DNA replication
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