Literature DB >> 770464

Mode of action of bottromycin A2. Release of aminoacyl- or peptidyl-tRNA from ribosomes.

T Otaka, A Kaji.   

Abstract

Bottromycin A2 inhibited MS2 phage RNA-dependent protein synthesis as well as polyuridylic acid-(poly(U))- or polyadenylic acid (poly(A))-dependent polypeptide synthesis. When the ribosomal complex with N-acetyl-[14C]phenylalanyl-tRNA (N-acetyl-[14C]Phe-tRNA) at the A site was subjected to bottromycin A2, the release of N-acetyl-[14C]Phe-tRNA was observed while no release of N-acetyl-[14C]Phe-tRNA from the donor site was observed, indicating that the action of bottromycin A2 is specific to the A site of ribosomes. Due to bottromycin's capacity to release [14C]Phe-tRNA or N-acetyl-[14C]Phe-tRNA from the ribosomal acceptor site (A site), bottromycin A2 inhibited the nonenzymatic binding of N-acetyl-[14C]Phe-tRNA and elongation factor T (EF-T)-dependent binding if the concentration of EF-Tu-GTP-[14C]Phe-tRNA ternary complex was low. Our data are consistent with the possibility that the inhibition of overall polypeptide synthesis by bottromycin A2 is at least partly due to bottromycin A2's activity to release aminoacyl- or oligopeptidyl-tRNA from ribosomes. Among 10 antibiotics tested, bottromycin A2 and lincomycin released aminoacyl-tRNA from ribosomes.

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Year:  1976        PMID: 770464

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  8 in total

1.  Erythromycin, carbomycin, and spiramycin inhibit protein synthesis by stimulating the dissociation of peptidyl-tRNA from ribosomes.

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Review 3.  Ribosomally synthesized and post-translationally modified peptide natural products: overview and recommendations for a universal nomenclature.

Authors:  Paul G Arnison; Mervyn J Bibb; Gabriele Bierbaum; Albert A Bowers; Tim S Bugni; Grzegorz Bulaj; Julio A Camarero; Dominic J Campopiano; Gregory L Challis; Jon Clardy; Paul D Cotter; David J Craik; Michael Dawson; Elke Dittmann; Stefano Donadio; Pieter C Dorrestein; Karl-Dieter Entian; Michael A Fischbach; John S Garavelli; Ulf Göransson; Christian W Gruber; Daniel H Haft; Thomas K Hemscheidt; Christian Hertweck; Colin Hill; Alexander R Horswill; Marcel Jaspars; Wendy L Kelly; Judith P Klinman; Oscar P Kuipers; A James Link; Wen Liu; Mohamed A Marahiel; Douglas A Mitchell; Gert N Moll; Bradley S Moore; Rolf Müller; Satish K Nair; Ingolf F Nes; Gillian E Norris; Baldomero M Olivera; Hiroyasu Onaka; Mark L Patchett; Joern Piel; Martin J T Reaney; Sylvie Rebuffat; R Paul Ross; Hans-Georg Sahl; Eric W Schmidt; Michael E Selsted; Konstantin Severinov; Ben Shen; Kaarina Sivonen; Leif Smith; Torsten Stein; Roderich D Süssmuth; John R Tagg; Gong-Li Tang; Andrew W Truman; John C Vederas; Christopher T Walsh; Jonathan D Walton; Silke C Wenzel; Joanne M Willey; Wilfred A van der Donk
Journal:  Nat Prod Rep       Date:  2013-01       Impact factor: 13.423

4.  The bottromycin epimerase BotH defines a group of atypical α/β-hydrolase-fold enzymes.

Authors:  Asfandyar Sikandar; Laura Franz; Sebastian Adam; Javier Santos-Aberturas; Liliya Horbal; Andriy Luzhetskyy; Andrew W Truman; Olga V Kalinina; Jesko Koehnke
Journal:  Nat Chem Biol       Date:  2020-06-29       Impact factor: 16.174

5.  Synthetic studies towards bottromycin.

Authors:  Stefanie Ackermann; Hans-Georg Lerchen; Dieter Häbich; Angelika Ullrich; Uli Kazmaier
Journal:  Beilstein J Org Chem       Date:  2012-10-01       Impact factor: 2.883

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Journal:  Front Genet       Date:  2020-03-31       Impact factor: 4.599

7.  Regulation of Bottromycin Biosynthesis Involves an Internal Transcriptional Start Site and a Cluster-Situated Modulator.

Authors:  Natalia M Vior; Eva Cea-Torrescassana; Tom H Eyles; Govind Chandra; Andrew W Truman
Journal:  Front Microbiol       Date:  2020-03-26       Impact factor: 6.064

8.  Isolation and characterization of Streptomyces bacteriophages and Streptomyces strains encoding biosynthetic arsenals.

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Journal:  PLoS One       Date:  2022-01-21       Impact factor: 3.240
  8 in total

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