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Papers In Press, published online ahead of print November 27, 2005
Chemistry Dept., Stanford University, Stanford, CA 94305-5080
Corresponding Author: kool{at}stanford.edu
Hypotheses on the origins of high fidelity in replicative DNA polymerases have recently focused on the importance of geometric or steric effects in this selectivity. Here we report a systematic study of the effects of base pair size in T7 DNA polymerase, the replicative enzyme for bacteriophage T7. We varied base pair size in very small (0.25 Å) increments by use of a series of nonpolar thymidine shape mimics having gradually increasing size. Steady-state kinetics were evaluated for the 5A7A exonuclease-deficient mutant in a 1:1 complex with thioredoxin. For T7 pol we studied insertion of natural nucleotides opposite variable-sized T analogs in the template, and conversely, for variable-sized dTTP analogs opposite natural template bases. The enzyme displayed extremely high selectivity for a specific base pair size, with drops in efficiency of as much as 280-fold for increases of 0.4 Å beyond an optimum size approximating the size of a natural pair. The enzyme also strongly rejected pairs that were smaller than the optimum by as little as 0.3 Å. The size preferences with T7 DNA Pol were generally smaller and the steric rejection was greater than DNA Pol I Klenow fragment, correlating with the higher fidelity of the former. The hypothetical effects of varied active site size and rigidity are discussed. The data lend direct support to the concept that active site tightness is a chief determinant of high fidelity of replicative polymerases, and that a less rigid (looser) and larger active site can lead to lower fidelity.
J. Biol. Chem, 10.1074/jbc.M510744200
Submitted on October 3, 2005
Revised on November 22, 2005
Accepted on November 27, 2005
Functional evidence for a small and rigid active site in a high-fidelity DNA polymerase: Probing T7 DNA POL with variably-sized base pairs
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