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7R3Y

The crystal structure of the V426L variant of Pol2CORE in complex with DNA and an incoming nucleotide

Summary for 7R3Y
Entry DOI10.2210/pdb7r3y/pdb
Related7R3X
DescriptorDNA polymerase epsilon catalytic subunit, DNA Primer, DNA Template, ... (7 entities in total)
Functional Keywordsprotein-dna complex, dna binding protein
Biological sourceSaccharomyces cerevisiae (baker's yeast)
More
Total number of polymer chains6
Total formula weight290973.75
Authors
Barbari, S.R.,Beach, A.K.,Markgren, J.G.,Parkash, V.,Johansson, E.,Shcherbakova, P.V. (deposition date: 2022-02-08, release date: 2022-07-27, Last modification date: 2024-01-31)
Primary citationBarbari, S.R.,Beach, A.K.,Markgren, J.G.,Parkash, V.,Moore, E.A.,Johansson, E.,Shcherbakova, P.V.
Enhanced polymerase activity permits efficient synthesis by cancer-associated DNA polymerase ε variants at low dNTP levels.
Nucleic Acids Res., 50:8023-8040, 2022
Cited by
PubMed Abstract: Amino acid substitutions in the exonuclease domain of DNA polymerase ϵ (Polϵ) cause ultramutated tumors. Studies in model organisms suggested pathogenic mechanisms distinct from a simple loss of exonuclease. These mechanisms remain unclear for most recurrent Polϵ mutations. Particularly, the highly prevalent V411L variant remained a long-standing puzzle with no detectable mutator effect in yeast despite the unequivocal association with ultramutation in cancers. Using purified four-subunit yeast Polϵ, we assessed the consequences of substitutions mimicking human V411L, S459F, F367S, L424V and D275V. While the effects on exonuclease activity vary widely, all common cancer-associated variants have increased DNA polymerase activity. Notably, the analog of Polϵ-V411L is among the strongest polymerases, and structural analysis suggests defective polymerase-to-exonuclease site switching. We further show that the V411L analog produces a robust mutator phenotype in strains that lack mismatch repair, indicating a high rate of replication errors. Lastly, unlike wild-type and exonuclease-dead Polϵ, hyperactive variants efficiently synthesize DNA at low dNTP concentrations. We propose that this characteristic could promote cancer cell survival and preferential participation of mutator polymerases in replication during metabolic stress. Our results support the notion that polymerase fitness, rather than low fidelity alone, is an important determinant of variant pathogenicity.
PubMed: 35822874
DOI: 10.1093/nar/gkac602
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.6 Å)
Structure validation

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數據於2024-11-06公開中

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