Design and calibration of a semi-synthetic DNA phasing assay

doi:10.1093/nar/28.23.e102

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Nucleic Acids Research, 2000, Vol. 28, No. 23 e102
© 2000 Oxford University Press

Design and calibration of a semi-synthetic DNA phasing assay

Philip R. Hardwidge, Jeff M. Zimmerman and L. James Maher, III^*

Department of Biochemistry and Molecular Biology, Mayo Foundation, Rochester, MN 55905, USA

Electrophoretic assays of intrinsic DNA shape and shape changesinduced by ligand binding are extremely useful because of theirconvenience and simplicity. The development of calibrationsand empirical quantitative relationships permits highly accuratemeasurement of DNA shape using electrophoresis. Many conventionalanalyses employ the unidirectional ligation of short DNA duplexes.However, many oligonucleotides (typically more than 20) mustoften be synthesized for a single experiment. Additionally,the length of the DNA duplex can become limiting, preventingthe analysis of certain DNA sequences. We now describe a semi-syntheticelectrophoretic phasing method that offers several advantages,including a reduced number of required synthetic oligonucleotides,the ability to analyze longer DNA duplexes and a simplifiedapproach for data analysis. We characterize semi-synthetic DNAprobes in electrophoretic phasing assays by ligation of syntheticduplexes containing A₅ tracts between two longer restrictionfragments. Upon electrophoresis, the gel mobility is stronglycorrelated with the predicted DNA curvature provided by thereference A₅ tracts. Having obtained this calibration, we showthat the semi-synthetic phasing assay can be readily and economicallyapplied to analyze DNA curvature induced by DNA charge modificationsand DNA bending due to peptide binding.

^* To whom correspondence should be addressed. Tel: +1 507 2849041; Fax: +1 507 284 2053; Email: maher@mayo.edu

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