Publication

Toward an Effective Control of DNA's Submolecular Conformation on a Surface

Abstract

DNA adopts different conformations based on its environment. We reveal conditions that either preserve the DNA's physiological B-conformation, even upon its placement in UHV, or lead to a partial B-form to A-form reorganization upon DNA's deposition on a surface. We use high resolution AFM to image DNA with a well-defined number of base pairs deposited on mica. To enable the DNA's adhesion, we either add divalent cations to the DNA solution or functionalize the surface with a silane layer. The contour length of DNA on the silane is always in perfect agreement with the B-form conformation, whereas cation-deposited DNA is always, in some cases up to 20% shorter. We varied the equilibration time, the DNA length, and sequence and compared nicked to non-nicked molecules, thus identifying several factors controlling the DNA's length. We performed TERS measurements confirming spectroscopically that cation-deposited DNA undergoes a partial B-form to A-form conformational transition upon drying and pinpointed positions along the DNA where this transition was more probable, namely the ends of the molecules. Controlling the conformation of DNA is essential for its nanotechnology applications such as nanotemplating. Our findings could also shed a whole new light on DNA polymer physics, the mechanisms of DNA binding to surfaces, or the abundant contradictory data on DNA's electrical behavior.

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Related concepts (32)
Conformational isomerism
In chemistry, conformational isomerism is a form of stereoisomerism in which the isomers can be interconverted just by rotations about formally single bonds (refer to figure on single bond rotation). While any two arrangements of atoms in a molecule that differ by rotation about single bonds can be referred to as different conformations, conformations that correspond to local minima on the potential energy surface are specifically called conformational isomers or conformers.
Eclipsed conformation
In chemistry an eclipsed conformation is a conformation in which two substituents X and Y on adjacent atoms A, B are in closest proximity, implying that the torsion angle X–A–B–Y is 0°. Such a conformation can exist in any open chain, single chemical bond connecting two sp3-hybridised atoms, and it is normally a conformational energy maximum. This maximum is often explained by steric hindrance, but its origins sometimes actually lie in hyperconjugation (as when the eclipsing interaction is of two hydrogen atoms).
DNA
Deoxyribonucleic acid (diːˈɒksᵻˌraɪboʊnjuːˌkliːᵻk,_-ˌkleɪ-; DNA) is a polymer composed of two polynucleotide chains that coil around each other to form a double helix. The polymer carries genetic instructions for the development, functioning, growth and reproduction of all known organisms and many viruses. DNA and ribonucleic acid (RNA) are nucleic acids. Alongside proteins, lipids and complex carbohydrates (polysaccharides), nucleic acids are one of the four major types of macromolecules that are essential for all known forms of life.
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