A combined cryo-EM and molecular dynamics approach reveals the mechanism of ErmBL-mediated translation arrest

A combined cryo-EM and molecular dynamics approach reveals the mechanism of ErmBL-mediated translation arrest

When the antibiotic erythromycin is bound to the ribosomal exit tunnel, ErmBL peptide translation stalls and allows translation of the downstream methyltransferase ErmB. Here the authors combine cryo-EM and molecular dynamics simulations to identify the underlying basis for the inhibition of peptide...

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Autores principales: Stefan Arenz, Lars V. Bock, Michael Graf, C. Axel Innis, Roland Beckmann, Helmut Grubmüller, Andrea C. Vaiana, Daniel N. Wilson
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Science
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Acceso en línea:https://doaj.org/article/e950afdd22974cc8a096e6e992509d62
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Sumario:When the antibiotic erythromycin is bound to the ribosomal exit tunnel, ErmBL peptide translation stalls and allows translation of the downstream methyltransferase ErmB. Here the authors combine cryo-EM and molecular dynamics simulations to identify the underlying basis for the inhibition of peptide bond formation that results in ribosome stalling.

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