Tension on dsDNA bound to ssDNA-RecA filaments may play an important role in driving efficient and accurate homology recognition and strand exchange

Julea Vlassakis, Efraim Feinstein, Darren Yang, Antoine Tilloy, Dominic Weiller, Julian Kates‐Harbeck, Vincent W. Coljee, Mara Prentiss

Type: Article

Publication Date: 2013-03-05

Citations: 18

DOI: https://doi.org/10.1103/physreve.87.032702

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Abstract

It is well known that during homology recognition and strand exchange the double stranded DNA (dsDNA) in DNA/RecA filaments is highly extended, but the functional role of the extension has been unclear. We present an analytical model that calculates the distribution of tension in the extended dsDNA during strand exchange. The model suggests that the binding of additional dsDNA base pairs to the DNA/RecA filament alters the tension in dsDNA that was already bound to the filament, resulting in a non-linear increase in the mechanical energy as a function of the number of bound base pairs. This collective mechanical response may promote homology stringency and underlie unexplained experimental results.

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+ PDF Chat	Physics of RecA-Mediated Homologous Recognition	2004	Kevin Klapstein Tom Chou Robijn Bruinsma
+ PDF Chat	High fidelity of RecA-catalyzed recombination: a watchdog of genetic diversity	2006	Dror Sagi Tsvi Tlusty Joel Stavans