In vitro methylation of Escherichia coli 16S ribosomal RNA and 30S ribosomes

Abstract

Treatment of synthetic 30S particles lacking all of the normally methylated nucleotides with S-adenosyl-[3H]methionine and either an S100 or ribosomal high salt wash extract resulted in ribosome-dependent incorporation of [3H]methyl groups into trichloroacetic acid-insoluble material. No incorporation was observed when naturally methylated isolated 30S particles were used, showing that methylation at unnatural sites did not occur. Enzymatic hydrolysis of the labeled RNA to nucleosides followed by HPLC analysis identified the [3H]methylated residues. Activities for the formation of N6-methyladenosine, N6-dimethyladenosine, 5-methylcytidine (m5C), 3-methyluridine, and N2-methylguanosine were found. Fractionation by ammonium sulfate partially resolved the different activities. All of the fractions with m5C activity were 6-8 times more active on synthetic unmethylated 16S RNA than on synthetic 30S ribosomes, whereas the N2-methylguanosine activity preferred 30S ribosomes to 16S RNA by a factor of more than 10. The N6-methyladenosine and N6-dimethyladenosine activities were 30S ribosome-specific. The m5C activity present in the 55-85% ammonium sulfate fraction of the high salt wash yielded a maximum of 1.0 mol of m5C per mol of 16S RNA, although two m5C residues, positions 967 and 1407, are found in vivo. RNase protection by hybridization with the appropriate oligodeoxynucleotide identified the methylated residue as C-967. Methylation of m5C-967 did not require prior methylation of G-966, and methylation of A-1518 and A-1519 was not dependent on prior methylation of G-1516.