Nucleotide Composition of RNA

Materials

 

  • RNA sample
     
  • 1 N and 0.1 N HCl
     
  • Boiling water bath
     
  • Whatman #1 filter paper (for chromatography)
     
  • Chromatography tank
     
  • 20 µl micropipette
     
  • Acetic acid: butanol: water (15:60:25) solvent
     
  • UV light source
     
  • UV spectrophotometer

Procedure

 

  1. Place a portion of your RNA sample (approximately 40 mg, hydrated) into a heavy walled pyrex test tube. Add 1.0 ml of 1 N HCl and seal the tube.

     

  2. Heat the tube in a boiling water bath for 1 hour.

     

  3. Cool the tube, open it and place the contents into a centrifuge tube. Centrifuge the contents at 2,000 RPM in a clinical centrifuge to remove any insoluble residue. The supernatant contains your hydrolyzed RNA.

     

  4. Prepare Whatman filter paper No. 1 for standard one- dimensional chromatography. 12

     

  5. Using a micropipette, spot 20 µl of your hydrolyzate onto the paper, being careful to keep the spots as small as possible (repeated small drops are better than one large drop). Allow the spots to completely dry before proceeding.

     

  6. Place the paper chromatogram into your chromatography tank and add the solvent (acetic acid:butanol:water). Allow the system to function for an appropriate time (approximately 36 hours for a 20 cm descending strip of Whatman #1). Remove the paper and dry it in a circulating air oven at 40° C for about 2 hours.

     

  7. Locate the spots of nucleotides by their fluorescence under an ultra-violet light source. Expose the paper chromatogram to a UV light source and outline the spots using a light pencil. The order of migration from the point of origin is guanine (light blue fluorescence), adenine, cytilic acid and finally, uridylic acid.

    Do not look directly at the UV light source. Use a cabinet designed to shield from harmful UV radiation.

     

  8. After cafefully marking the spots, cut them out with scissors and place the paper cut outs into separately labeled 15 ml conical centrifuge tubes. Add 5.0 ml of 0.1 N HCl to each tube and allow the tubes to sit for several hours to elute the nucleotides from the paper.

     

  9. Pack down the paper with a glass rod (centrifuge in a clinical centrifuge if necessary) and remove an aliquot of the liquid for spectrophotometric assay.

     

  10. Measure the absorbance of each of the four nucleotides at the indicated UV wavelength (having first blanked the instrument with 0.1 N HCl).

     

    Base
         		 Wavelength
         		 Molar Extinction Coefficient
     
    Guanine
         		 250 nm
         		 10.6
     
    Adenine
         		 260 nm
         		 13.0
     
    Cytidylic acid
         		 280 nm
         		 19.95
     
    Uridylic acid
         		 260 nm
         		 9.89
     

     

  11. Use the molar extinction coefficients to determine the concentration of each base in the sample. Calculate the percent composition of each base, and the purine/pyrimidine ratio.

 
 
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