Antimicrobial Agents and Chemotherapy 2014-10-01

Overproduction of Ristomycin A by activation of a silent gene cluster in Amycolatopsis japonicum MG417-CF17.

Marius Spohn, Norbert Kirchner, Andreas Kulik, Angelika Jochim, Felix Wolf, Patrick Muenzer, Oliver Borst, Harald Gross, Wolfgang Wohlleben, Evi Stegmann

文献索引:Antimicrob. Agents Chemother. 58(10) , 6185-96, (2014)

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摘要

The emergence of antibiotic-resistant pathogenic bacteria within the last decades is one reason for the urgent need for new antibacterial agents. A strategy to discover new anti-infective compounds is the evaluation of the genetic capacity of secondary metabolite producers and the activation of cryptic gene clusters (genome mining). One genus known for its potential to synthesize medically important products is Amycolatopsis. However, Amycolatopsis japonicum does not produce an antibiotic under standard laboratory conditions. In contrast to most Amycolatopsis strains, A. japonicum is genetically tractable with different methods. In order to activate a possible silent glycopeptide cluster, we introduced a gene encoding the transcriptional activator of balhimycin biosynthesis, the bbr gene from Amycolatopsis balhimycina (bbrAba), into A. japonicum. This resulted in the production of an antibiotically active compound. Following whole-genome sequencing of A. japonicum, 29 cryptic gene clusters were identified by genome mining. One of these gene clusters is a putative glycopeptide biosynthesis gene cluster. Using bioinformatic tools, ristomycin (syn. ristocetin), a type III glycopeptide, which has antibacterial activity and which is used for the diagnosis of von Willebrand disease and Bernard-Soulier syndrome, was deduced as a possible product of the gene cluster. Chemical analyses by high-performance liquid chromatography and mass spectrometry (HPLC-MS), tandem mass spectrometry (MS/MS), and nuclear magnetic resonance (NMR) spectroscopy confirmed the in silico prediction that the recombinant A. japonicum/pRM4-bbrAba synthesizes ristomycin A. Copyright © 2014, American Society for Microbiology. All Rights Reserved.


相关化合物

  • 氯化钠
  • 氯化钠-35cl
  • 硫酸瑞斯托菌素A

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