Gel purification of radiolabeled nucleic acids via phosphorimaging: Dip-N-Dot

Aaron S. Burton; Rowan A. Madix; Nilesh Vaidya; Craig A. Riley; Eric J. Hayden; Andre Chepetan; Carolina Díaz Arenas; Brian C. Larson; Niles Lehman

doi:10.1016/j.ab.2009.02.010

Gel purification of radiolabeled nucleic acids via phosphorimaging: Dip-N-Dot

Aaron S. Burton, Rowan A. Madix, Nilesh Vaidya, Craig A. Riley, Eric J. Hayden, Andre Chepetan, Carolina Díaz Arenas, Brian C. Larson, Niles Lehman

Department of Biological Sciences

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

7 Scopus citations

Abstract

RNA and DNA oligonucleotides radiolabeled with ³²P or ³³P often require gel electrophoresis to remove undesired side and/or degradation products. Common ways to visualize these molecules after electrophoresis are by ultraviolet (UV) shadowing, which necessarily reduces the specific activity of the oligonucleotide, and by autoradiography using film, which is cumbersome and increases the cost of generating the radiolabeled molecule. A more cost-effective method is to physically inject the gel with a "Dip-N-Dot" solution of dye and radionuclide after electrophoresis but prior to phosphorimaging. The gel can be overlaid on its computer-generated image, allowing the labeled molecules to be visualized quickly.

Original language	English
Pages (from-to)	351-352
Number of pages	2
Journal	Analytical Biochemistry
Volume	388
Issue number	2
DOIs	https://doi.org/10.1016/j.ab.2009.02.010
State	Published - 15 May 2009

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abstract = "RNA and DNA oligonucleotides radiolabeled with 32P or 33P often require gel electrophoresis to remove undesired side and/or degradation products. Common ways to visualize these molecules after electrophoresis are by ultraviolet (UV) shadowing, which necessarily reduces the specific activity of the oligonucleotide, and by autoradiography using film, which is cumbersome and increases the cost of generating the radiolabeled molecule. A more cost-effective method is to physically inject the gel with a {"}Dip-N-Dot{"} solution of dye and radionuclide after electrophoresis but prior to phosphorimaging. The gel can be overlaid on its computer-generated image, allowing the labeled molecules to be visualized quickly.",

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AU - Burton, Aaron S.

AU - Madix, Rowan A.

AU - Vaidya, Nilesh

AU - Riley, Craig A.

AU - Hayden, Eric J.

AU - Chepetan, Andre

AU - Arenas, Carolina Díaz

AU - Larson, Brian C.

AU - Lehman, Niles

PY - 2009/5/15

Y1 - 2009/5/15

N2 - RNA and DNA oligonucleotides radiolabeled with 32P or 33P often require gel electrophoresis to remove undesired side and/or degradation products. Common ways to visualize these molecules after electrophoresis are by ultraviolet (UV) shadowing, which necessarily reduces the specific activity of the oligonucleotide, and by autoradiography using film, which is cumbersome and increases the cost of generating the radiolabeled molecule. A more cost-effective method is to physically inject the gel with a "Dip-N-Dot" solution of dye and radionuclide after electrophoresis but prior to phosphorimaging. The gel can be overlaid on its computer-generated image, allowing the labeled molecules to be visualized quickly.

AB - RNA and DNA oligonucleotides radiolabeled with 32P or 33P often require gel electrophoresis to remove undesired side and/or degradation products. Common ways to visualize these molecules after electrophoresis are by ultraviolet (UV) shadowing, which necessarily reduces the specific activity of the oligonucleotide, and by autoradiography using film, which is cumbersome and increases the cost of generating the radiolabeled molecule. A more cost-effective method is to physically inject the gel with a "Dip-N-Dot" solution of dye and radionuclide after electrophoresis but prior to phosphorimaging. The gel can be overlaid on its computer-generated image, allowing the labeled molecules to be visualized quickly.

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JO - Analytical Biochemistry

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Gel purification of radiolabeled nucleic acids via phosphorimaging: Dip-N-Dot

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