DNA base pair resolution measurements using resonance energy transfer efficiency in lanthanide doped nanoparticles

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Abstract

(CN) Lanthanide-doped nanoparticles are of considerable interest for biodetection and bioimaging techniques thanks to their unique chemical and optical properties. As a sensitive luminescence material, they can be used as (bio) probes in Förster Resonance Energy Transfer (FRET) where trivalent lanthanide ions (La3+) act as energy donors. In this paper we present an efficient method to transfer ultrasmall (ca. 8 nm) NaYF4 nanoparticles dispersed in organic solvent to an aqueous solution via oxidation of the oleic acid ligand. Nanoparticles were then functionalized with single strand DNA oligomers (ssDNA) by inducing covalent bonds between surface carboxylic groups and a 5' amine modified-ssDNA. Hybridization with the 5' fluorophore (Cy5) modified complementary ssDNA strand demonstrated the specificity of binding and allowed the fine control over the distance between Eu3+ ions doped nanoparticle and the fluorophore by varying the number of the dsDNA base pairs. First, our results confirmed nonradiative resonance energy transfer and demonstrate the dependence of its efficiency on the distance between the donor (Eu3+) and the acceptor (Cy5) with sensitivity at a nanometre scale.

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Delplanque, A., Wawrzynczyk, D., Jaworski, P., Matczyszyn, K., Pawlik, K., Buckle, M., … Samoc, M. (2015). DNA base pair resolution measurements using resonance energy transfer efficiency in lanthanide doped nanoparticles. PLoS ONE, 10(3). https://doi.org/10.1371/journal.pone.0117277

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