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Original publication:

Title: Counting RAD51 proteins disassembling from nucleoprotein filaments under tension
Author(s): Joost van Mameren, Mauro Modesti, Roland Kanaar, Claire Wyman, Erwin J. G. Peterman, Gijs J. L. Wuite
As Contributors: Joost van Mameren
Journal ref.: Nature 457, 745-748
DOI: http://dx.doi.org/10.1038/nature07581
Date: 2008-12-07

Abstract:

The central catalyst in eukaryotic ATP-dependent homologous recombination consists of RAD51 proteins, polymerized around single-stranded DNA. This nucleoprotein filament recognizes and invades a homologous duplex DNA segment1, 2. After strand exchange, the nucleoprotein filament should disassemble so that the recombination process can be completed3. The molecular mechanism of RAD51 filament disassembly is poorly understood. Here we show, by combining optical tweezers with single-molecule fluorescence microscopy and microfluidics4, 5, that disassembly of human RAD51 nucleoprotein filaments results from the interplay between ATP hydrolysis and the release of the tension stored in the filament. By applying external tension to the DNA, we found that disassembly slows down and can even be stalled. We quantified the fluorescence of RAD51 patches and found that disassembly occurs in bursts interspersed by long pauses. After relaxation of a stalled complex, pauses were suppressed resulting in a large burst. These results indicate that tension-dependent disassembly takes place only from filament ends, after tension-independent ATP hydrolysis. This integrative single-molecule approach allowed us to dissect the mechanism of this principal homologous recombination reaction step, which in turn clarifies how disassembly can be influenced by accessory proteins.

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