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. 2020 Oct;16(10):1071-1077.
doi: 10.1038/s41589-020-0578-x. Epub 2020 Jun 29.

Tetracenomycin X inhibits translation by binding within the ribosomal exit tunnel

Ilya A Osterman #  1   2 Maximiliane Wieland #  3 Tinashe P Maviza #  4 Kseniya A Lashkevich  5 Dmitrii A Lukianov  4 Ekaterina S Komarova  4   5 Yuliya V Zakalyukina  6 Robert Buschauer  7 Dmitrii I Shiriaev  5 Semen A Leyn  8   9 Jaime E Zlamal  8 Mikhail V Biryukov  6 Dmitry A Skvortsov  5 Vadim N Tashlitsky  5 Vladimir I Polshakov  10 Jingdong Cheng  7 Yury S Polikanov  11 Alexey A Bogdanov  5 Andrei L Osterman  8 Sergey E Dmitriev  5 Roland Beckmann  7 Olga A Dontsova  4   5   12 Daniel N Wilson  13 Petr V Sergiev  14   15
Affiliations

Tetracenomycin X inhibits translation by binding within the ribosomal exit tunnel

Ilya A Osterman et al. Nat Chem Biol. 2020 Oct.

Abstract

The increase in multi-drug resistant pathogenic bacteria is making our current arsenal of clinically used antibiotics obsolete, highlighting the urgent need for new lead compounds with distinct target binding sites to avoid cross-resistance. Here we report that the aromatic polyketide antibiotic tetracenomycin (TcmX) is a potent inhibitor of protein synthesis, and does not induce DNA damage as previously thought. Despite the structural similarity to the well-known translation inhibitor tetracycline, we show that TcmX does not interact with the small ribosomal subunit, but rather binds to the large subunit, within the polypeptide exit tunnel. This previously unappreciated binding site is located adjacent to the macrolide-binding site, where TcmX stacks on the noncanonical basepair formed by U1782 and U2586 of the 23S ribosomal RNA. Although the binding site is distinct from the macrolide antibiotics, our results indicate that like macrolides, TcmX allows translation of short oligopeptides before further translation is blocked.

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