TY - JOUR
T1 - The antibiotic thiostrepton inhibits a functional transition within protein L11 at the ribosomal GTPase centre
AU - Porse, B T
AU - Leviev, I
AU - Mankin, A S
AU - Garrett, R A
N1 - Keywords: Amino Acid Sequence; Anti-Bacterial Agents; DNA Footprinting; Drug Resistance, Microbial; GTP Phosphohydrolases; Halobacterium salinarum; Molecular Sequence Data; Mutation; RNA; RNA, Ribosomal, 23S; Recombinant Fusion Proteins; Ribosomal Proteins; Ribosomes; Thiostrepton
PY - 1998
Y1 - 1998
N2 - A newly identified class of highly thiostrepton-resistant mutants of the archaeon Halobacterium halobium carry a missense mutation at codon 18 within the gene encoding ribosomal protein L11. In the mutant proteins, a proline, conserved in archaea and bacteria, is converted to either serine or threonine. The mutations do not impair either the assembly of the mutant L11 into 70 S ribosomes in vivo or the binding of thiostrepton to ribosomes in vitro. Moreover, the corresponding mutations at proline 22, in a fusion protein of L11 from Escherichia coli with glutathione-S-transferase, did not reduce the binding affinities of the mutated L11 fusion proteins for rRNA of of thiostrepton for the mutant L11-rRNA complexes at rRNA concentrations lower than those prevailing in vivo. Probing the structure of the fusion protein of wild-type L11, from E. coli, using a recently developed protein footprinting technique, demonstrated that a general tightening of the C-terminal domain occurred on rRNA binding, while thiostrepton produced a footprint centred on tyrosine 62 at the junction of the N and C-terminal domains of protein L11 complexed to rRNA. The intensity of this protein footprint was strongly reduced for the mutant L11-rRNA complexes. These results indicate that although, as shown earlier, thiostrepton binds primarily to 23 S rRNA, the drug probably inhibits peptide elongation by impeding a conformational change within protein L11 that is important for the function of the ribosomal GTPase centre. This putative inhibitory mechanism of thiostrepton is critically dependent on proline 18/22. Moreover, the absence of this proline from eukaryotic protein L11 sequences would account for the high thiostrepton resistance of eukaryotic ribosomes.
AB - A newly identified class of highly thiostrepton-resistant mutants of the archaeon Halobacterium halobium carry a missense mutation at codon 18 within the gene encoding ribosomal protein L11. In the mutant proteins, a proline, conserved in archaea and bacteria, is converted to either serine or threonine. The mutations do not impair either the assembly of the mutant L11 into 70 S ribosomes in vivo or the binding of thiostrepton to ribosomes in vitro. Moreover, the corresponding mutations at proline 22, in a fusion protein of L11 from Escherichia coli with glutathione-S-transferase, did not reduce the binding affinities of the mutated L11 fusion proteins for rRNA of of thiostrepton for the mutant L11-rRNA complexes at rRNA concentrations lower than those prevailing in vivo. Probing the structure of the fusion protein of wild-type L11, from E. coli, using a recently developed protein footprinting technique, demonstrated that a general tightening of the C-terminal domain occurred on rRNA binding, while thiostrepton produced a footprint centred on tyrosine 62 at the junction of the N and C-terminal domains of protein L11 complexed to rRNA. The intensity of this protein footprint was strongly reduced for the mutant L11-rRNA complexes. These results indicate that although, as shown earlier, thiostrepton binds primarily to 23 S rRNA, the drug probably inhibits peptide elongation by impeding a conformational change within protein L11 that is important for the function of the ribosomal GTPase centre. This putative inhibitory mechanism of thiostrepton is critically dependent on proline 18/22. Moreover, the absence of this proline from eukaryotic protein L11 sequences would account for the high thiostrepton resistance of eukaryotic ribosomes.
U2 - 10.1006/jmbi.1997.1541
DO - 10.1006/jmbi.1997.1541
M3 - Journal article
C2 - 9512711
SN - 0022-2836
VL - 276
SP - 391
EP - 404
JO - Journal of Molecular Biology
JF - Journal of Molecular Biology
IS - 2
ER -