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DNA concentration-dependent dissociation of EcoRI: direct transfer or reaction during hopping

Authors :
Thomas G. Scott
Nina Y. Sidorova
Donald C. Rau
Source :
Biophysical journal. 104(6)
Publication Year :
2012

Abstract

Direct transfer of proteins between DNA helices is a recognized important feature of the recognition site search process. Direct transfer is characterized by a dissociation rate that depends on total DNA concentration. This is taken as evidence for the formation of an intermediate DNA-protein-DNA ternary complex. We find that the dissociation rate of EcoRI-DNA-specific complexes at 80 mM NaCl depends on the concentration of competitor oligonucleotide suggesting that direct transfer contributes to EcoRI dissociation. This dependence on competitor DNA concentration is not seen at 180 mM salt. A careful examination of the salt concentration dependence of the dissociation rate, however, shows that the predictions for the formation of a ternary complex are not observed experimentally. The findings can be rationalized by considering that just after dissociating from a DNA fragment the protein remains in close proximity to that fragment, can reassociate with it, and diffuse back to the recognition site rather than bind to an oligonucleotide in solution, a hopping excursion. The probability that a protein will bind to an oligonucleotide during a hop can be approximately calculated and shown to explain the data. A dependence of the dissociation rate of a DNA-protein complex on competitor DNA concentration does not necessarily mean direct transfer.

Details

ISSN :
15420086
Volume :
104
Issue :
6
Database :
OpenAIRE
Journal :
Biophysical journal
Accession number :
edsair.doi.dedup.....0e5862d1efe29b58a43f38673d34277f