The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre.

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The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre. / Porse, B T; Cundliffe, E; Garrett, Roger Antony.

In: Journal of Molecular Biology, Vol. 287, No. 1, 1999, p. 33-45.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Porse, BT, Cundliffe, E & Garrett, RA 1999, 'The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre.', Journal of Molecular Biology, vol. 287, no. 1, pp. 33-45. https://doi.org/10.1006/jmbi.1999.2600

APA

Porse, B. T., Cundliffe, E., & Garrett, R. A. (1999). The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre. Journal of Molecular Biology, 287(1), 33-45. https://doi.org/10.1006/jmbi.1999.2600

Vancouver

Porse BT, Cundliffe E, Garrett RA. The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre. Journal of Molecular Biology. 1999;287(1):33-45. https://doi.org/10.1006/jmbi.1999.2600

Author

Porse, B T ; Cundliffe, E ; Garrett, Roger Antony. / The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre. In: Journal of Molecular Biology. 1999 ; Vol. 287, No. 1. pp. 33-45.

Bibtex

@article{ff80484074c811dbbee902004c4f4f50,
title = "The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre.",
abstract = "Micrococcin-resistant mutants of Bacillus megaterium that carry mutations affecting ribosomal protein L11 have been characterised. The mutants fall into two groups. {"}L11-minus{"} strains containing an L11 gene with deletions, insertions or nonsense mutations which grow 2.5-fold slower than the wild-type strain, whereas other mutants carrying single-site substitutions within an 11 amino acid residue segment of the N-terminal domain of L11 grow normally. Protein L11 binds to 23 S rRNA within the ribosomal GTPase centre which regulates GTP hydrolysis on ribosomal factors. Micrococcin binding within the rRNA component of this centre was probed on wild-type and mutant ribosomes, in vivo, using dimethyl sulphate where it generated an rRNA footprint indistinguishable from that produced in vitro, even after the cell growth had been arrested by treatment with either kirromycin or fusidic acid. No drug-rRNA binding was detected in vivo for the L11-minus mutants, while reduced binding (approximately 30-fold) was observed for two single-site mutants P23L and P26L. For the latter, the reduced drug affinity alone did not account for the resistance-phenotype because rapid cell growth occurred even at drug concentrations that would saturate the ribosomes. Micrococcin was also bound to complexes containing an rRNA fragment and wild-type or mutant L11, expressed as fusion proteins, and they were probed with proteinases. The drug produced strong protection effects on the wild-type protein and weak effects on the P23L and P26L mutant proteins. We infer that inhibition of cell growth by micrococcin, as for thiostrepton, results from the imposition of a conformational constraint on protein L11 which, in turn, perturbs the function(s) of the ribosomal factor-guanosine nucleotide complexes.",
author = "Porse, {B T} and E Cundliffe and Garrett, {Roger Antony}",
note = "Keywords: Amino Acid Sequence; Anti-Bacterial Agents; Bacillus megaterium; Bacteriocins; Base Sequence; Binding Sites; Cloning, Molecular; Drug Resistance, Microbial; Fusidic Acid; GTP Phosphohydrolases; Molecular Sequence Data; Mutation; Peptides; Protein Synthesis Inhibitors; Pyridones; RNA, Ribosomal, 23S; RNA-Binding Proteins; Recombinant Fusion Proteins; Ribosomal Proteins; Ribosomes; Sequence Analysis, DNA; Thiostrepton",
year = "1999",
doi = "10.1006/jmbi.1999.2600",
language = "English",
volume = "287",
pages = "33--45",
journal = "Journal of Molecular Biology",
issn = "0022-2836",
publisher = "Academic Press",
number = "1",

}

RIS

TY - JOUR

T1 - The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre.

AU - Porse, B T

AU - Cundliffe, E

AU - Garrett, Roger Antony

N1 - Keywords: Amino Acid Sequence; Anti-Bacterial Agents; Bacillus megaterium; Bacteriocins; Base Sequence; Binding Sites; Cloning, Molecular; Drug Resistance, Microbial; Fusidic Acid; GTP Phosphohydrolases; Molecular Sequence Data; Mutation; Peptides; Protein Synthesis Inhibitors; Pyridones; RNA, Ribosomal, 23S; RNA-Binding Proteins; Recombinant Fusion Proteins; Ribosomal Proteins; Ribosomes; Sequence Analysis, DNA; Thiostrepton

PY - 1999

Y1 - 1999

N2 - Micrococcin-resistant mutants of Bacillus megaterium that carry mutations affecting ribosomal protein L11 have been characterised. The mutants fall into two groups. "L11-minus" strains containing an L11 gene with deletions, insertions or nonsense mutations which grow 2.5-fold slower than the wild-type strain, whereas other mutants carrying single-site substitutions within an 11 amino acid residue segment of the N-terminal domain of L11 grow normally. Protein L11 binds to 23 S rRNA within the ribosomal GTPase centre which regulates GTP hydrolysis on ribosomal factors. Micrococcin binding within the rRNA component of this centre was probed on wild-type and mutant ribosomes, in vivo, using dimethyl sulphate where it generated an rRNA footprint indistinguishable from that produced in vitro, even after the cell growth had been arrested by treatment with either kirromycin or fusidic acid. No drug-rRNA binding was detected in vivo for the L11-minus mutants, while reduced binding (approximately 30-fold) was observed for two single-site mutants P23L and P26L. For the latter, the reduced drug affinity alone did not account for the resistance-phenotype because rapid cell growth occurred even at drug concentrations that would saturate the ribosomes. Micrococcin was also bound to complexes containing an rRNA fragment and wild-type or mutant L11, expressed as fusion proteins, and they were probed with proteinases. The drug produced strong protection effects on the wild-type protein and weak effects on the P23L and P26L mutant proteins. We infer that inhibition of cell growth by micrococcin, as for thiostrepton, results from the imposition of a conformational constraint on protein L11 which, in turn, perturbs the function(s) of the ribosomal factor-guanosine nucleotide complexes.

AB - Micrococcin-resistant mutants of Bacillus megaterium that carry mutations affecting ribosomal protein L11 have been characterised. The mutants fall into two groups. "L11-minus" strains containing an L11 gene with deletions, insertions or nonsense mutations which grow 2.5-fold slower than the wild-type strain, whereas other mutants carrying single-site substitutions within an 11 amino acid residue segment of the N-terminal domain of L11 grow normally. Protein L11 binds to 23 S rRNA within the ribosomal GTPase centre which regulates GTP hydrolysis on ribosomal factors. Micrococcin binding within the rRNA component of this centre was probed on wild-type and mutant ribosomes, in vivo, using dimethyl sulphate where it generated an rRNA footprint indistinguishable from that produced in vitro, even after the cell growth had been arrested by treatment with either kirromycin or fusidic acid. No drug-rRNA binding was detected in vivo for the L11-minus mutants, while reduced binding (approximately 30-fold) was observed for two single-site mutants P23L and P26L. For the latter, the reduced drug affinity alone did not account for the resistance-phenotype because rapid cell growth occurred even at drug concentrations that would saturate the ribosomes. Micrococcin was also bound to complexes containing an rRNA fragment and wild-type or mutant L11, expressed as fusion proteins, and they were probed with proteinases. The drug produced strong protection effects on the wild-type protein and weak effects on the P23L and P26L mutant proteins. We infer that inhibition of cell growth by micrococcin, as for thiostrepton, results from the imposition of a conformational constraint on protein L11 which, in turn, perturbs the function(s) of the ribosomal factor-guanosine nucleotide complexes.

U2 - 10.1006/jmbi.1999.2600

DO - 10.1006/jmbi.1999.2600

M3 - Journal article

C2 - 10074405

VL - 287

SP - 33

EP - 45

JO - Journal of Molecular Biology

JF - Journal of Molecular Biology

SN - 0022-2836

IS - 1

ER -

ID: 192197