Author
Listed:
- Johannes Hohlbein
(Biological Physics Research Group, Clarendon Laboratory, University of Oxford
Present address: Laboratory of Biophysics, Wageningen UR, Dreijenlaan 3, 6703 HA Wageningen, The Netherlands)
- Louise Aigrain
(Biological Physics Research Group, Clarendon Laboratory, University of Oxford)
- Timothy D. Craggs
(Biological Physics Research Group, Clarendon Laboratory, University of Oxford
Yale University)
- Oya Bermek
(Yale University
Present address: Lineberger Comprehensive Cancer Center, University of North Carolina, Chapel Hill, North Carolina 27599, USA)
- Olga Potapova
(Yale University)
- Pouya Shoolizadeh
(Biological Physics Research Group, Clarendon Laboratory, University of Oxford)
- Nigel D. F. Grindley
(Yale University)
- Catherine M. Joyce
(Yale University)
- Achillefs N. Kapanidis
(Biological Physics Research Group, Clarendon Laboratory, University of Oxford)
Abstract
The fidelity of DNA polymerases depends on conformational changes that promote the rejection of incorrect nucleotides before phosphoryl transfer. Here, we combine single-molecule FRET with the use of DNA polymerase I and various fidelity mutants to highlight mechanisms by which active-site side chains influence the conformational transitions and free-energy landscape that underlie fidelity decisions in DNA synthesis. Ternary complexes of high fidelity derivatives with complementary dNTPs adopt mainly a fully closed conformation, whereas a conformation with a FRET value between those of open and closed is sparsely populated. This intermediate-FRET state, which we attribute to a partially closed conformation, is also predominant in ternary complexes with incorrect nucleotides and, strikingly, in most ternary complexes of low-fidelity derivatives for both correct and incorrect nucleotides. The mutator phenotype of the low-fidelity derivatives correlates well with reduced affinity for complementary dNTPs and highlights the partially closed conformation as a primary checkpoint for nucleotide selection.
Suggested Citation
Johannes Hohlbein & Louise Aigrain & Timothy D. Craggs & Oya Bermek & Olga Potapova & Pouya Shoolizadeh & Nigel D. F. Grindley & Catherine M. Joyce & Achillefs N. Kapanidis, 2013.
"Conformational landscapes of DNA polymerase I and mutator derivatives establish fidelity checkpoints for nucleotide insertion,"
Nature Communications, Nature, vol. 4(1), pages 1-11, October.
Handle:
RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3131
DOI: 10.1038/ncomms3131
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