Polylysine-coated mica can be used to observe systematic changes in the supercoiled DNA conformation by scanning force microscopy in solution

doi:10.1093/nar/gng137

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Nucleic Acids Research, 2003, Vol. 31, No. 22 e137
© 2003 Oxford University Press

Article

Polylysine-coated mica can be used to observe systematic changes in the supercoiled DNA conformation by scanning force microscopy in solution

Malte Bussiek, Norbert Mücke and Jörg Langowski^*

German Cancer Research Center, Department of Biophysics of Macromolecules, Im Neuenheimer Feld 580, D-69120 Heidelberg, Germany

*To whom correspondence should be addressed. Tel: +49 6221 423390; Fax: +49 6221 423391; Email: jl{at}dkfz.de

The conformations of supercoiled (sc) DNA and linear DNA boundto polylysine (PL)-coated mica were investigated by scanningforce microscopy (SFM) in solution. From the polymer statisticalanalysis of linear DNA, we could distinguish between re-arrangementsor trapping of the DNA on the surface. Conditions of re-arrangementsto an almost equilibrated state can be achieved at appropriatePL surface concentrations. We could show that the ability ofre-arrangements depends on the salt concentration of the adsorption/imagingbuffer. Comparing the statistical analysis of the linear DNAwith SFM images of scDNA suggested that irregular scDNA conformationsare formed under conditions of trapping, whereas plectonemicstructures are favoured under conditions of surface re-arrangements.Salt-dependent changes in the scDNA conformation over the rangeof 10–100 mM NaCl, as characterised by the parameterswrithe and the superhelix radius r, are observable only underconditions that enable surface re-arrangements. The measuredvalues of writhe suggest that the scDNA loses approximatelyone-half of the supercoils during the binding to the surface.At the same time r increases systematically with decreasingwrithe, thus the scDNA topology remains determined by the constraintson supercoiling during the binding to PL-coated mica.

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