The stability and characteristics of a DNA Holliday junction switch |
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Authors: | Mount A R Mountford C P Evans S A G Su T-J Buck A H Dickinson P Campbell C J Keane L M Terry J G Beattie J S Walton A J Ghazal P Crain J |
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Affiliation: | School of Chemistry, The University of Edinburgh, Mayfield Road, Edinburgh EH9 3JJ, UK. A.Mount@ed.ac.uk |
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Abstract: | A Holliday junction (HJ) consists of four DNA double helices, with a branch point discontinuity at the intersection of the component strands. At low ionic strength, the HJ adopts an open conformation, with four widely spaced arms, primarily due to strong electrostatic repulsion between the phosphate groups on the backbones. At high ionic strength, screening of this repulsion induces a switch to a more compact (closed) junction conformation. Fluorescent labelling with dyes placed on the HJ arms allows this conformational switch to be detected optically using fluorescence resonance energy transfer (FRET), producing a sensitive fluorescent output of the switch state. This paper presents a systematic and quantitative survey of the switch characteristics of such a labelled HJ. A short HJ (arm length 8 bp) is shown to be prone to dissociation at low switching ion concentration, whereas an HJ of arm length 12 bp is shown to be stable over all switching ion concentrations studied. The switching characteristics of this HJ have been systematically and quantitatively studied for a variety of switching ions, by measuring the required ion concentration, the sharpness of the switching transition and the fluorescent output intensity of the open and closed states. This stable HJ is shown to have favourable switch characteristics for a number of inorganic switching ions, making it a promising candidate for use in nanoscale biomolecular switch devices. |
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Keywords: | Holliday junction FRET Biomolecular switch DNA Stability Ion control |
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