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DOI: 10.1055/s-0039-3400036
Exploitation of genome mining tools for accelerated natural product discovery
Publication History
Publication Date:
20 December 2019 (online)
Streptomycetes are rich sources of new bioactive natural products. Their genomes typically contain over twenty biosynthetic gene clusters encoding for secondary metabolite pathways [1]. One of those are nonribosomally produced peptides (NRP). They represent a structurally diverse family of natural products with a broad spectrum of biological activities, e. g. antibiotic, anti-cancer and immunosupressive [2], [3]. Clusters encoding for nonribosomal peptide synthetases (NRPS) can be easily identified by genome mining, i. e. screening and identification of these clusters employing bioinformatics [4].
Aim of the project is to identify novel gene clusters by genome mining and to isolate the predicted products of these clusters as well as to evaluate their bioactivity. An interesting candidate is Streptomyces fragilis which is predicted to produce an NRP by two NRPS [Fig. 1].
In order to isolate the predicted NRP, the substrate specificity of the adenylation domains of the two NRPS were determined by cloning, overexpression and γ-18O4-ATP-pyrophosphate exchange assay [5]. l-Valine was found to be the predominant substrate for six out of nine tested adenylation domains. To identify a valine-rich natural product produced by S. fragilis, 14C-valine was fed to a 25 ml culture. Culture extracts were analyzed by radio-HPLC and radio-TLC for radioactive compounds. One radioactive product was detected. Its identification is in process.
Taken together, we have identified a cluster encoding for two NRPS with unusual substrate specificity which predicts the ability of this two NRPS to produce a new secondary metabolite.
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References
- 1 Busarakam K, Bull AT, Girard G, Labeda DP, van Wezel GP, Goodfellow M. Streptomyces leeuwenhoekii sp. nov., the producer of chaxalactins and chaxamycins, forms a distinct branch in Streptomyces gene trees. Antonie Van Leeuwenhoek 2014; 105: 849-861
- 2 Stachelhaus T, Marahiel MA. Modular structure of peptide synthetases revealed by dissection of the multifunctional enzyme GrsA. J Biol Chem 1995; 270: 6163-6169
- 3 Strieker M, Tanović A, Marahiel MA. Nonribosomal peptide synthetases: structures and dynamics. Curr Opin Struct Biol 2010; 20: 234-240
- 4 Blin K, Wolf T, Chevrette MG, Lu X, Schwalen CJ, Kautsar SA. etal. antiSMASH 4.0—improvements in chemistry prediction and gene cluster boundary identification. Nucleic Acids Res 2017; 45: W36-41
- 5 Phelan VV, Du Y, McLean JA, Bachmann BO. Adenylation enzyme characterization using gamma -(18)O(4)-ATP pyrophosphate exchange. Chem Biol 2009; 16: 473-478
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References
- 1 Busarakam K, Bull AT, Girard G, Labeda DP, van Wezel GP, Goodfellow M. Streptomyces leeuwenhoekii sp. nov., the producer of chaxalactins and chaxamycins, forms a distinct branch in Streptomyces gene trees. Antonie Van Leeuwenhoek 2014; 105: 849-861
- 2 Stachelhaus T, Marahiel MA. Modular structure of peptide synthetases revealed by dissection of the multifunctional enzyme GrsA. J Biol Chem 1995; 270: 6163-6169
- 3 Strieker M, Tanović A, Marahiel MA. Nonribosomal peptide synthetases: structures and dynamics. Curr Opin Struct Biol 2010; 20: 234-240
- 4 Blin K, Wolf T, Chevrette MG, Lu X, Schwalen CJ, Kautsar SA. etal. antiSMASH 4.0—improvements in chemistry prediction and gene cluster boundary identification. Nucleic Acids Res 2017; 45: W36-41
- 5 Phelan VV, Du Y, McLean JA, Bachmann BO. Adenylation enzyme characterization using gamma -(18)O(4)-ATP pyrophosphate exchange. Chem Biol 2009; 16: 473-478