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Ethanol Precipitation of Nucleic Acids

DNA and RNA can be efficiently precipitated from aqueous solution by the addition of ethanol in the presence of salt.

  1. measure the volume of aqueous nucleic acid solution to be precipitated
  2. add 1/10th volume of 8M LiCl
    • use care when making the 8M LiCl stock. LiCl gives off a lot of heat when it dissolves and can clump up. add LiCl powder gradually to stirring water
  3. add 2.5 volumes of room temperature 100% ethanol and mix thourougly
    • based on the aqueous volume before the addition of LiCl
    • 2.5 volumes of ethanol addition is a good all-purpose amount. 2.0 volumes can be used if there is a lot of nucleic acid to precipitate and/or the solution is already quite salty (e.g. after addition of solution III from a PlasmidMiniprep), or 3.0 volumes can be helpful sometimes for very small amounts of nucleic acid
    • for precipitating RNA efficiently, 3.0 volumes of ethanol is generally recommended
  4. incubate the ethanol / nucleic acid mixture
    • for larger amounts of nucleic acids incubation at room temperature for 3 - 5 minutes is generally sufficient or
    • for small amounts of nucleic acids (less than 0.5 μg) incubate at -20C for 10 minutes
      • it is helpful to give tubes a brief and gentle vortex after this incubation step; this helps the nucleic acid pellet to the bottom of the tube rather than smearing up the side as it can do sometimes
  5. centrifuge at 12000g (minimum)
    • the time of centrifugation is more important for recovery than the time of incubation with ethanol
      • 3 minutes for large amounts of nucleic acid (more than 1μg) or
      • 10 minutes for small amounts of nucleic acid (less than 1μg)
  6. decant the supernatant
  7. add 500 μl room temperature 75% ethanol. rinse around the sides of the tube by gentle inversion
    • the 75% ethanol rinse is not particularly effective at dissolving any salt trapped in the DNA pellet; the purpose of the rinse is to wash salt from the sides of the tube
  8. respin at 12000g for 2 minutes
    • this step is optional for large amounts of DNA
  9. decant the 75% ethanol
  10. spin down briefly
  11. pipette aspirate the remaining 75% ethanol, allow the pellet to air dry and resuspend in an appropriate volume of water, TE, etc.
    • never use an evaporator such as a SpeedVac to dry the pellet


Hi Bob, I am convinced and have plsaonrely experienced the benefits of ionized water but I am not yet 100% convinced about the best way of filtering the water before the ionization step. In your consumers' guide to purchasing a water ionizer you talk briefly about some filtration methods and state that distillation or RO produce water that should not be consumed and can not be used as source water for water ionizers. In your guide you list under further reading the book water the ultimate cure and in this book the author, steve meyerowitz, concludes that distillation is the most effective water filtration method covering the broades range of contaminants. He coins it the crown jewel of water purification . I understand that distillation removes all minerals from the water and even changes it chrystalline structure in a negative way. What if I add minerals after distillation? Would that change anything? What about adding Flanagan Enhanced Silica Hydride? Is there any way to combine the benefits of water ionization with the effectiveness in water purification through distillation or RO?
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