Multiple ribosomal RNA cleavage pathways in mammalian cells.

The sequence content of mouse L cell pre-rRNA was examined by RNA gel transfer and blot hybridization. Nuclear RNAs were separated by agarose gel electrophoresis, transferred to diazo-paper, and hybridized to twelve different restriction fragments that are complementary to various sections of 45S pre-rRNA. An abundant new 34S pre-rRNA and less abundant new 37S, 26S and 17S pre-rRNAs were detected. The presence of these new pre-rRNAs suggests the existence of at least two new pre-rRNA cleavage pathways. 34S and 26S pre-rRNAs were also detected in HeLa cells suggesting that these new cleavage pathways are characteristic of mammalian cells. Further, an abundant new 12S precursor to 5.8S rRNA was also detected and is common to all the proposed cleavage pathways. The previously identified 45S, 41S, 32S and 20S pre-rRNAs were readily detected and their general structure confirmed. The 20S pre-rRNA is characteristic of the known pathway used by HeLa and other cells, and its presence suggests that growing mouse L cells use this pre-rRNA cleavage pathway. The 36S pre-rRNA characteristic of the previously described mouse L cell cleavage pathway was not detected. In all these cleavage pathways pre-rRNA cleavage sites are apparently identical and occur at or near the termini of the mature 18S, 5.8S and 28S rRNA sequences. The pathways differ only in the temporal order of cleavage at these sites. The position of the 5.8S rRNA sequence was located within the internal transcribed spacer. The known and conserved sequence of 5.8S rRNA from several organisms predicts a characteristic pattern of restriction enzyme sites for 5.8S rDNA. Internal transcribed spacer rDNA was mapped with restriction enzymes, and the characteristic pattern was found near the midpoint of the internal transcribed spacer. This places the 5.8S rRNA sequence at or near the 5' terminus of 32S pre-rRNA.