Adsorbate deformation as a contrast mechanism in STM images of biopolymers in an aqueous environment: images of the unstained, hydrated DNA double helix

S. M. Lindsay; T. Thundat; L. Nagahara

doi:10.1111/j.1365-2818.1988.tb01381.x

Adsorbate deformation as a contrast mechanism in STM images of biopolymers in an aqueous environment: images of the unstained, hydrated DNA double helix

S. M. Lindsay
, T. Thundat
, L. Nagahara

Department of Chemical and Biological Engineering

Arizona State University

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

A stable residual aggregate remains on a submerged gold surface after electrophoretic deposition of DNA. We present scanning tunnelling microscope (STM) images of these aggregates which show many objects with the geometry of DNA, clearly displaying the 3·4 nm helix pitch. These images are quite distinctive, and cannot be generated when the deposition technique is used without DNA in the buffer solution. A characteristic of these images is that the tip is observed to dip down over the DNA molecule at the same time as the apparent barrier height drops by a factor of about four. The tip displacement is accounted for by a model in which contrast is dominated by local fluctuations in the deformability of the adsorbate layer, a quantity deduced from measurements of the apparent barrier heights in air, water, over small molecule adsorbates, and over DNA. 1988 Blackwell Science Ltd

Original language	English
Pages (from-to)	213-220
Number of pages	8
Journal	Journal of Microscopy
Volume	152
Issue number	1
DOIs	https://doi.org/10.1111/j.1365-2818.1988.tb01381.x
State	Published - Oct 1988

Keywords

DNA structure
liquid‐metal interfaces
scanning tunnelling microscopy

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10.1111/j.1365-2818.1988.tb01381.x

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title = "Adsorbate deformation as a contrast mechanism in STM images of biopolymers in an aqueous environment: images of the unstained, hydrated DNA double helix",

abstract = "A stable residual aggregate remains on a submerged gold surface after electrophoretic deposition of DNA. We present scanning tunnelling microscope (STM) images of these aggregates which show many objects with the geometry of DNA, clearly displaying the 3·4 nm helix pitch. These images are quite distinctive, and cannot be generated when the deposition technique is used without DNA in the buffer solution. A characteristic of these images is that the tip is observed to dip down over the DNA molecule at the same time as the apparent barrier height drops by a factor of about four. The tip displacement is accounted for by a model in which contrast is dominated by local fluctuations in the deformability of the adsorbate layer, a quantity deduced from measurements of the apparent barrier heights in air, water, over small molecule adsorbates, and over DNA. 1988 Blackwell Science Ltd",

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AU - Nagahara, L.

PY - 1988/10

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N2 - A stable residual aggregate remains on a submerged gold surface after electrophoretic deposition of DNA. We present scanning tunnelling microscope (STM) images of these aggregates which show many objects with the geometry of DNA, clearly displaying the 3·4 nm helix pitch. These images are quite distinctive, and cannot be generated when the deposition technique is used without DNA in the buffer solution. A characteristic of these images is that the tip is observed to dip down over the DNA molecule at the same time as the apparent barrier height drops by a factor of about four. The tip displacement is accounted for by a model in which contrast is dominated by local fluctuations in the deformability of the adsorbate layer, a quantity deduced from measurements of the apparent barrier heights in air, water, over small molecule adsorbates, and over DNA. 1988 Blackwell Science Ltd

AB - A stable residual aggregate remains on a submerged gold surface after electrophoretic deposition of DNA. We present scanning tunnelling microscope (STM) images of these aggregates which show many objects with the geometry of DNA, clearly displaying the 3·4 nm helix pitch. These images are quite distinctive, and cannot be generated when the deposition technique is used without DNA in the buffer solution. A characteristic of these images is that the tip is observed to dip down over the DNA molecule at the same time as the apparent barrier height drops by a factor of about four. The tip displacement is accounted for by a model in which contrast is dominated by local fluctuations in the deformability of the adsorbate layer, a quantity deduced from measurements of the apparent barrier heights in air, water, over small molecule adsorbates, and over DNA. 1988 Blackwell Science Ltd

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KW - liquid‐metal interfaces

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Adsorbate deformation as a contrast mechanism in STM images of biopolymers in an aqueous environment: images of the unstained, hydrated DNA double helix

Abstract

Keywords

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