Isolation of high molecular weight DNA from wholeEuglena cells |
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Authors: | Christine Mederic Odile Bertaux J D Rouzeau R Valencia |
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Institution: | (1) Laboratory of Physiopathology of the Cell Nucleus, Department of Biochemistry, Faculty of Pharmacy, University of Paris-Sud, Chatenay-Malabry |
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Abstract: | Summary A method for isolating high quality DNA from wholeEuglena cells is described. The procedure consists in: the weakening of the cell pellicle in glycerol avoiding the mechanical disruption of cells and shearing damage in DNA molecules; the decondensation ofEuglena compact chromatin directly inside the cells; the complete dissociation of cells and nucleoproteins in sarkosyl detergent; the optional digestion of proteins and RNA with DNase-free enzymes and the final purification of DNA by isopycnic banding in CsCl gradients. Degradation of DNA is prevented all along the extraction procedure by glycerol, antioxydants, EDTA and sarkosyl detergent. Using the enzymatic digestion step, DNA containing few single-stranded nicks is obtained with a yield approaching 100%. DNA with no single-stranded nick could be obtained with a 35% yield when the enzymatic digestion step was omitted. In both cases, the double-stranded DNA has an average molecular weight equal or greater than 6×107. It is free of contaminants and could be easily digested with restriction enzymes. After digestion with Eco RI and size-fractionation in agarose gel this DNA has permitted specific hybridization of the rDNA sequences with a radioactive rRNA probe.Abbreviations Kbp
kilobasepairs
- Kb
kilobases |
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Keywords: | CsCl DNA purification Euglena genomic DNA High molecular weight DNA Quantitative DNA extraction Nick-free single-stranded DNA |
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