Comparison of proteins bound to heterogeneous nuclear RNA and messenger RNA in HeLa cells.

Ribonucleoprotein particles containing either heterogeneous nuclear RNA or polyribosomal messenger RNA were isolated from growing HeLa cells in order to compare their respective protein components. The major obstacle to analysing the proteins bound to HeLa cell mRNA proved to be the cosedimentation of a large fraction of the mRNP² particles with ribosomal subunits following puromycin or EDTA disassembly of polyribosomes. This was circumvented by oligo(dT)-cellulose chromatography, in which essentially all of the ribosomal subunits passed through the column without retention, while approximately 80% of the pulse-labeled, poly(A)-containing mRNP became bound and could be eluted with formamide. Polyacrylamide gel electrophoresis of the non-bound fraction (ribosomal subunits) revealed polypeptides between 15,000 and 55,000 molecular weight, with no detectable components greater than 55,000. The oligo-(dT)-bound mRNP contained a much simpler protein complement, consisting of three major components having molecular weights of 120,000, 76,000 and 52,000.In the case of the nuclear ribonucleoprotein particles that contain heterogeneous nuclear RNA, oligo(dT)-cellulose chromatography revealed two classes of particles. The first contained 10 to 20% of the hnRNA, did not bind to oligo(dT)-cellulose in 0.25 m-NaCl, 10 mm-sodium phosphate buffer, pH 7.0 (4 °C), and contained primarily a single polypeptide component having an estimated molecular weight of 40,000 (“informofers”). A second population of hnRNP particles comprised approximately 80% of the hnRNA, displayed strong binding to oligo(dT)-cellulose at 0.25 m-NaCl, and contained a very complex population of proteins, having molecular weights between 40,000 and 180,000, the same as unfractionated hnRNP. The results indicate that, at the resolution of gel electrophoresis and at the sensitivity of Coomassie blue dye, the proteins bound to HeLa cell hnRNA are qualitatively distinct from those bound to polyribosomal mRNA and, in addition, that the hnRNP proteins are the more complex of the two. These results are discussed in relation to the possible nucleotide sequence elements in hnRNA and mRNA to which these specific proteins are bound.