Tautomeric form of C•A mismatch is stabilized by polymerase.

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Using data collected at the SIBYLS beamline members of the Beese Lab have demonstrated that high fidelity polymerases can stabilize certain tautomeric forms of mismatched base pairs ultimately resulting in incorporation of mutations into the DNA duplex.

Even though high-fidelity polymerases copy DNA with remarkable accuracy, some base-pair mismatches are incorporated at low frequency, leading to spontaneous mutagenesis. Using high-resolution X-ray crystallographic analysis of a DNA polymerase that catalyzes replication in crystals, The Beese Lab has observed that a C•A mismatch can mimic the shape of cognate base pairs at the site of incorporation. This shape mimicry enables the mismatch to evade the error detection mechanisms of the polymerase, which would normally either prevent mismatch incorporation or promote its nucleolytic excision. Movement of a single proton on one of the mismatched bases alters the hydrogen-bonding pattern such that a base pair forms with an overall shape that is virtually indistinguishable from a canonical, Watson-Crick base pair in double-stranded DNA. These observations provide structural evidence for the rare tautomer hypothesis of spontaneous mutagenesis, a long-standing concept that has been difficult to demonstrate directly.

Wang W, Hellinga HW, Beese LS. “Structural evidence for the rare tautomer hypothesis of spontaneous mutagenesis.” Proceedings of the National Academy of Sciences 2011 Oct.;108(43):17644-17648.

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