Abstract
Atomic force microscopy (AFM) measurements of biomolecules, such as proteins, are often affected by molecular fluctuations. Not only due to the intrinsic thermal fluctuation, deformation and displacement of a part or the whole molecule are induced by the AFM tip, especially when the molecules are weakly fixed to a substrate. Here we have studied the effect of the molecular fluctuations on the topography of the streptavidin (SA) protein molecules bound to a DNA origami in two different configurations by force spectroscopy experiments. While the experimental and theoretical height histograms of a tightly-fixed SA molecule were in good agreement, the experimental height histogram of a weakly-fixed SA molecule was distorted. We discussed the origins of the discrepancy of the histogram for the latter and suggested that it was due to the tip-induced deformation or the displacement of the molecule. The methodology presented here is useful for assessment of the appropriate fixation conditions for high-resolution topographic and functional imaging experiments of a single molecule by AFM.
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