DNA height in scanning force microscopy.
Ultramicroscopy
; 96(2): 167-74, 2003 Aug.
Article
em En
| MEDLINE
| ID: mdl-12672567
The measured height of DNA molecules adsorbed on a mica substrate by scanning probe microscopy is always less than the theoretical diameter. In this paper we show that, when imaged in ambient conditions, the molecules are usually immersed in the salt layer used to adsorb them to the substrate. This layer distorts the measurement of DNA height and is the main source of error but not the only one. We have performed different experiments to study this problem using two scanning force techniques: non-contact tapping mode in air and jumping mode in aqueous solution, where the dehydration phenomena is minimized. Height measurements of DNA in air using tapping mode reveal a height of 0.7+/-0.2nm. This value increases up to 1.5+/-0.2nm when the salt layer, in which the molecules are embedded, is removed. Jumping experiments in water give a value of 1.4+/-0.3nm when the maximum applied force is 300pN and 1.8+/-0.2nm at very low forces, which confirms the removal of the salt layer. Still, in all our experiments, the measured height of the DNA is less than the theoretical value. Our results show that although the salt layer present is important, some sample deformation due to either the loading force of the tip or the interaction with the substrate is also present.
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Coleções:
01-internacional
Base de dados:
MEDLINE
Assunto principal:
DNA
/
Microscopia de Força Atômica
Idioma:
En
Revista:
Ultramicroscopy
Ano de publicação:
2003
Tipo de documento:
Article