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  • Title: [Problems associated with the labelling of RNA with radioactive precursors in vivo (author's transl)].
    Author: Dahnke HG.
    Journal: Hoppe Seylers Z Physiol Chem; 1975 Oct; 356(10):1555-63. PubMed ID: 1213672.
    Abstract:
    The radioactivity of RNA, DNA and proteins in the liver, muscles and cerebrum of 30-day-old rats after labelling with [3H]uridine, [14C]uridine, [3H]cytidine or [3H]orotic acid was measured. It was found that after administration of [3H]uridine, the proteins were 5 - 10 times more radioactive than the RNA. After administration of [14C]uridine, the proteins were 1 - 2 times more heavily labelled than the RNA. Hydrolysis of the proteins followed by chromatography of the amino acids revealed that the protein labelling was mostly due to [3H]glutamate. In the liver, [3H]orotic acid produced very specific labelling of the RNA. The radioactivity of the proteins is very slight. However, the specific labelling of the RNA in the muscles and cerebrum is not so pronounced with this precursor. [3H]Cytidine is an ideal precursor for RNA. The labelling of protein in all three organs examined is very slight, and furthermore, the specific activity of the RNA is 10 - 20 times higher than after labelling with uridine. We were also able to show that after labelling with radioactive uridine, the method of isolation of RNA by alkaline hydrolysis gives incorrect results, because [3H]amino acids interfere with the measurement of the specific activity of the RNA. The heavy labelling of proteins by [3H]-uridine must also be taken into account in histoautoradiography, because our experiments showed that in liver, the proteins in the cell nucleus are 3 times as radioactive as the nucleic acids. The particulate components of the cytoplasm are even 20 times more radioactive than the nucleic acids.
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