We have characterized a putative precursor RNA (15.5S) for the 15S ribosomal RNA in mitochondria of Saccharomyces cerevisiae. Hybrids were formed with mitochondrial RNA and mtDNA fragments terminally labelled at restriction sites located within the gene coding for 15S ribosomal RNA and treated with S1 nuclease (Berk, A.J. and Sharp, J.A. (1977) 12, 721-732). Sites of resistant hybrids were measured by agarose gel electrophoresis and end points of RNAs determined. The 15.5S RNA is approximately 80 nucleotides longer than the 15S ribosomal RNA, with the extra sequences being located at the 5'-end. Both 15S ribosomal RNA and 15.5S RNA are fully localised within a 2000 base pair HapII fragment. This putative precursor and the mature 15S ribosomal RNA are also found in petite mutants which retain the 15S ribosomal RNA gene. The petite mutant with the smallest genetic complexity has its end point of deletion (junction) just outside the HapII site located in the 5' flank of the 15S ribosomal RNA genes as determined by S1 nuclease analysis. This leaves a DNA stretch approximately 300 base pairs long where an initiation signal for mitochondrial transcription may be present.
We have found that binding of poly(U,G) to single-stranded DNA decreases its mobility in 0.3% agarose gels. Differential binding to the complementary strands of denatured duplex DNA provides a simple method for strand separation. The method is shown to work with bacteriophage lambda DNA, adenovirus DNA and mtDNA for Tetrahymena pyriformis. In all cases the strand that binds more poly(U,G) in CsCl gradients also binds more in gels. The separated strands can be directly blotted from the gel onto nitrocellulose filters and used for hybridization experiments.
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