Publikation: A modified and automated version of the 'Fluorimetric Detection of Alkaline DNA Unwinding' method to quantify formation and repair of DNA strand breaks
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2009
Autor:innen
Moreno-Villanueva, Maria
Pfeiffer, Ragen
Sindlinger, Thilo
Leake, Alan
Müller, Marcus
Kirkwood, Thomas B. L.
Bürkle, Alexander
Herausgeber:innen
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European Union (EU): 200880
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BMC Biotechnology. 2009, 9(April), 39. ISSN 1472-6750. eISSN 1472-6750. Available under: doi: 10.1186/1472-6750-9-39
Zusammenfassung
Background: Formation and repair of DNA single-strand breaks are important parameters in the assessment of DNA damage and repair occurring in live cells. The 'Fluorimetric Detection of Alkaline DNA Unwinding (FADU)' method [Birnboim HC, Jevcak JJ. Cancer Res (1981) 41:1889 1892] is a sensitive procedure to quantify DNA strand breaks, yet it is very tedious to perform.
Results: In order (i) to render the FADU assay more convenient and robust, (ii) to increase throughput, and (iii) to reduce the number of cells needed, we have established a modified assay version that is largely automated and is based on the use of a liquid handling device. The assay is operated in a 96-well format, thus greatly increasing throughput. The number of cells required has been reduced to less than 10,000 per data point. The threshold for detection of X-ray-induced DNA strand breaks is 0.13 Gy. The total assay time required for a typical experiment to assess DNA strand break repair is 4 5 hours.
Conclusion: We have established a robust and convenient method measuring of formation and repair of DNA single-strand breaks in live cells. While the sensitivity of our method is comparable to current assays, throughput is massively increased while operator time is decreased.
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570 Biowissenschaften, Biologie
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MORENO-VILLANUEVA, Maria, Ragen PFEIFFER, Thilo SINDLINGER, Alan LEAKE, Marcus MÜLLER, Thomas B. L. KIRKWOOD, Alexander BÜRKLE, 2009. A modified and automated version of the 'Fluorimetric Detection of Alkaline DNA Unwinding' method to quantify formation and repair of DNA strand breaks. In: BMC Biotechnology. 2009, 9(April), 39. ISSN 1472-6750. eISSN 1472-6750. Available under: doi: 10.1186/1472-6750-9-39BibTex
@article{MorenoVillanueva2009modif-6790,
year={2009},
doi={10.1186/1472-6750-9-39},
title={A modified and automated version of the 'Fluorimetric Detection of Alkaline DNA Unwinding' method to quantify formation and repair of DNA strand breaks},
number={April},
volume={9},
issn={1472-6750},
journal={BMC Biotechnology},
author={Moreno-Villanueva, Maria and Pfeiffer, Ragen and Sindlinger, Thilo and Leake, Alan and Müller, Marcus and Kirkwood, Thomas B. L. and Bürkle, Alexander},
note={Article Number: 39}
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<dcterms:abstract xml:lang="eng">Background: Formation and repair of DNA single-strand breaks are important parameters in the assessment of DNA damage and repair occurring in live cells. The 'Fluorimetric Detection of Alkaline DNA Unwinding (FADU)' method [Birnboim HC, Jevcak JJ. Cancer Res (1981) 41:1889 1892] is a sensitive procedure to quantify DNA strand breaks, yet it is very tedious to perform.<br />Results: In order (i) to render the FADU assay more convenient and robust, (ii) to increase throughput, and (iii) to reduce the number of cells needed, we have established a modified assay version that is largely automated and is based on the use of a liquid handling device. The assay is operated in a 96-well format, thus greatly increasing throughput. The number of cells required has been reduced to less than 10,000 per data point. The threshold for detection of X-ray-induced DNA strand breaks is 0.13 Gy. The total assay time required for a typical experiment to assess DNA strand break repair is 4 5 hours.<br />Conclusion: We have established a robust and convenient method measuring of formation and repair of DNA single-strand breaks in live cells. While the sensitivity of our method is comparable to current assays, throughput is massively increased while operator time is decreased.</dcterms:abstract>
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