Abstract
A molecular basis for the insensitivity of eukaryotic ribosomes to the antibiotic thiostrepton was investigated using synthetic 100-nucleotide-long fragments covering the GTPase domain of 23/28 S rRNA. Filter binding assay showed no detectable binding of the rat RNA to thiostrepton, but the binding capacity was markedly increased by base substitution of G1878 to A at the position corresponding to 1067 of Escherichia coli 23 S rRNA. The association constant (K alpha) for the rat A 1878 mutant was 0.60 x 10(6) M-1, which was comparable with that of the E. coli RNA (K alpha = 1.1 x 10(6) M-1). This suggests that the eukaryotic G 1878 participates in the resistance for thiostrepton. On the other hand, the RNA fragments of the two species had a similar binding capacity for E. coli ribosomal protein L11 and its mammalian homologue L12. Gel electrophoresis under a high ionic condition, however, revealed a difference between the two proteins. E. coli L11 formed stable complexes with both the E. coli RNA and the rat A 1878 mutant RNA in the presence of thiostrepton, while rat L12 failed to exhibit such complex formation. This suggests that the eukaryotic L12 protein may also be an element giving the resistance for thiostrepton. These results are discussed in terms of preserved three-dimensional conformation of the RNA backbone between prokaryotes and higher eukaryotes.
Highlights
A number of antibiotics bind to prokaryotic ribosomes and interfere with protein synthesis
The residue A1067 in this domain plays an important role in the drug binding, i.e. methylation of the 2Ј-O of this residue renders ribosomes resistant to thiostrepton [9]; base substitutions at this residue reduce the affinity for thiostrepton (6, 10 –12); the antibiotic protects the N1 position
It is noteworthy that the base at the position equivalent to E. coli A1067 is replaced to G in the eukaryotic GTPase domain
Summary
A number of antibiotics bind to prokaryotic ribosomes and interfere with protein synthesis. The G base is the element required for recognition by anti-28 S autoantibody, which has a preference for the eukaryotic GTPase domain [16] These data imply that the G base at the 1067 equivalent position is an important identity element of the eukaryotic domain that is involved in the resistance for thiostrepton. To know whether this is the case, we tested an effect of substitution of A for the G base in the eukaryotic RNA domain on the thiostrepton binding. Effects of L11 and its mammalian homologue L12 on the drug binding are presented
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