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2ISO

Ternary complex of DNA Polymerase beta with a dideoxy terminated primer and 2'-deoxyguanosine 5'-beta, gamma-difluoromethylene triphosphate

Summary for 2ISO
Entry DOI10.2210/pdb2iso/pdb
Related2ISP
Descriptor5'-D(*CP*CP*GP*AP*CP*CP*GP*CP*GP*CP*AP*TP*CP*AP*GP*C)-3', 5'-D(*GP*CP*TP*GP*AP*TP*GP*CP*GP*(DOC))-3', 5'-D(P*GP*TP*CP*GP*G)-3', ... (9 entities in total)
Functional Keywordsnucleotidyl transferase, polymerase, leaving-group, transferase-dna complex, transferase/dna
Biological sourceHomo sapiens (human)
Total number of polymer chains4
Total formula weight48428.12
Authors
Sucato, C.A.,Upton, T.G.,Kashemirov, B.A.,Martinek, V.,Xiang, Y.,Beard, W.A. (deposition date: 2006-10-18, release date: 2007-01-30, Last modification date: 2023-08-30)
Primary citationSucato, C.A.,Upton, T.G.,Kashemirov, B.A.,Batra, V.K.,Martinek, V.,Xiang, Y.,Beard, W.A.,Pedersen, L.C.,Wilson, S.H.,McKenna, C.E.,Florian, J.,Warshel, A.,Goodman, M.F.
Modifying the beta,gamma Leaving-Group Bridging Oxygen Alters Nucleotide Incorporation Efficiency, Fidelity, and the Catalytic Mechanism of DNA Polymerase beta.
Biochemistry, 46:461-471, 2007
Cited by
PubMed Abstract: DNA polymerase catalysis and fidelity studies typically compare incorporation of "right" versus "wrong" nucleotide bases where the leaving group is pyrophosphate. Here we use dGTP analogues replacing the beta,gamma-bridging O with CH2, CHF, CF2, or CCl2 to explore leaving-group effects on the nucleotidyl transfer mechanism and fidelity of DNA polymerase (pol) beta. T.G mismatches occur with fidelities similar to dGTP with the exception of the CH2 analogue, which is incorporated with 5-fold higher fidelity. All analogues are observed to bind opposite template C with Kds between 1 and 4 microM, and structural evidence suggests that the analogues bind in essentially the native conformation, making them suitable substrates for probing linear free energy relationships (LFERs) in transient-kinetics experiments. Importantly, Brnsted correlations of log(kpol) versus leaving-group pKa for both right and wrong base incorporation reveal similar sensitivities (betalg approximately -0.8) followed by departures from linearity, suggesting that a chemical step rather than enzyme conformational change is rate-limiting for either process. The location of the breaks relative to pKas of CF2, O, and the sterically bulky CCl2-bridging compounds suggests a modification-induced change in the mechanism by stabilization of leaving-group elimination. The results are addressed theoretically in terms of the energetics of successive primer 3'-O addition (bond forming) and pyrophosphate analogue elimination (bond breaking) reaction energy barriers.
PubMed: 17209556
DOI: 10.1021/bi061517b
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.1 Å)
Structure validation

226707

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