Quantitative DNA hybridization in solution using magnetic/luminescent core–shell nanoparticles

Nanoscale magnetic/luminescent core–shell particles were used for DNA quantification in a hybridization-in-solution approach. We demonstrated a rapid, simple, and non-polymerase chain reaction-based DNA hybridization-in-solution assay for quantifying bacteria capable of biodegrading methyl tertiary-...

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Veröffentlicht in:	Analytical biochemistry 2007-11, Vol.370 (2), p.186-194
Hauptverfasser:	Son, Ahjeong, Dosev, Dosi, Nichkova, Mikaela, Ma, Zhiya, Kennedy, Ian M., Scow, Kate M., Hristova, Krassimira R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Base Pair Mismatch Base Sequence DNA DNA - analysis DNA - genetics Hybridization-in-solution Kinetics Lanthanide oxide Luminescence Magnetic particles Magnetics Methyl tertiary-butyl ether Models, Molecular Molecular Sequence Data Nanoparticles Nucleic Acid Hybridization Solutions
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container_title	Analytical biochemistry
container_volume	370
creator	Son, Ahjeong Dosev, Dosi Nichkova, Mikaela Ma, Zhiya Kennedy, Ian M. Scow, Kate M. Hristova, Krassimira R.
description	Nanoscale magnetic/luminescent core–shell particles were used for DNA quantification in a hybridization-in-solution approach. We demonstrated a rapid, simple, and non-polymerase chain reaction-based DNA hybridization-in-solution assay for quantifying bacteria capable of biodegrading methyl tertiary-butyl ether. Fe 3O 4/Eu:Gd 2O 3 core–shell nanoparticles synthesized by spray pyrolysis were biofunctionalized with NeutrAvidin. Following immobilization of a biotinylated probe DNA on the particles’ surfaces via passive adsorption, target DNA labeled with fluorescein isothiocyanate was hybridized with probe DNA. The hybridized DNA complex was separated from solution with a magnet, while nonhybridized DNA remained in solution. The normalized fluorescence (fluorescein isothiocyanate/nanoparticles) measured with a spectrofluorometer indicated a linear quantification ( R 2 = 0.98) of the target bacterial 16 S rDNA. The rate of hybridization increased concurrently with the target DNA concentration. In addition, this approach differentiated between the signal outputs from perfectly complementary target and two-base mismatched target DNA in a range of concentrations, showing the specificity of the assay and the possibility for environmental applications.
doi_str_mv	10.1016/j.ab.2007.08.001
format	Article
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We demonstrated a rapid, simple, and non-polymerase chain reaction-based DNA hybridization-in-solution assay for quantifying bacteria capable of biodegrading methyl tertiary-butyl ether. Fe 3O 4/Eu:Gd 2O 3 core–shell nanoparticles synthesized by spray pyrolysis were biofunctionalized with NeutrAvidin. Following immobilization of a biotinylated probe DNA on the particles’ surfaces via passive adsorption, target DNA labeled with fluorescein isothiocyanate was hybridized with probe DNA. The hybridized DNA complex was separated from solution with a magnet, while nonhybridized DNA remained in solution. The normalized fluorescence (fluorescein isothiocyanate/nanoparticles) measured with a spectrofluorometer indicated a linear quantification ( R 2 = 0.98) of the target bacterial 16 S rDNA. The rate of hybridization increased concurrently with the target DNA concentration. 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We demonstrated a rapid, simple, and non-polymerase chain reaction-based DNA hybridization-in-solution assay for quantifying bacteria capable of biodegrading methyl tertiary-butyl ether. Fe 3O 4/Eu:Gd 2O 3 core–shell nanoparticles synthesized by spray pyrolysis were biofunctionalized with NeutrAvidin. Following immobilization of a biotinylated probe DNA on the particles’ surfaces via passive adsorption, target DNA labeled with fluorescein isothiocyanate was hybridized with probe DNA. The hybridized DNA complex was separated from solution with a magnet, while nonhybridized DNA remained in solution. The normalized fluorescence (fluorescein isothiocyanate/nanoparticles) measured with a spectrofluorometer indicated a linear quantification ( R 2 = 0.98) of the target bacterial 16 S rDNA. The rate of hybridization increased concurrently with the target DNA concentration. In addition, this approach differentiated between the signal outputs from perfectly complementary target and two-base mismatched target DNA in a range of concentrations, showing the specificity of the assay and the possibility for environmental applications.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>17869209</pmid><doi>10.1016/j.ab.2007.08.001</doi><tpages>9</tpages></addata></record>
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subjects	Base Pair Mismatch Base Sequence DNA DNA - analysis DNA - genetics Hybridization-in-solution Kinetics Lanthanide oxide Luminescence Magnetic particles Magnetics Methyl tertiary-butyl ether Models, Molecular Molecular Sequence Data Nanoparticles Nucleic Acid Hybridization Solutions
title	Quantitative DNA hybridization in solution using magnetic/luminescent core–shell nanoparticles
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