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Microb Cell Fact


Title:Direct pathway cloning of the sodorifen biosynthetic gene cluster and recombinant generation of its product in E. coli
Author(s):Duell ER; D'Agostino PM; Shapiro N; Woyke T; Fuchs TM; Gulder TAM;
Address:"Biosystems Chemistry, Department of Chemistry and Center for Integrated Protein Science Munich (CIPSM), Technical University of Munich, Lichtenbergstrasse 4, 85748, Garching, Germany. Department of Energy, Joint Genome Institute, 2800 Mitchell Drive, Walnut Creek, CA, 94598, USA. ZIEL Institute for Food & Health, Lehrstuhl fur Mikrobielle Okologie, Department biowissenschaftliche Grundlagen, Technical University of Munich, Munich, Germany. Friedrich-Loeffler-Institut, Institut fur Molekulare Pathogenese, Jena, Germany. Biosystems Chemistry, Department of Chemistry and Center for Integrated Protein Science Munich (CIPSM), Technical University of Munich, Lichtenbergstrasse 4, 85748, Garching, Germany. tobias.gulder@ch.tum.de. Chair of Technical Biochemistry, Technische Universitat Dresden, Bergstrasse 66, 01602, Dresden, Germany. tobias.gulder@ch.tum.de"
Journal Title:Microb Cell Fact
Year:2019
Volume:20190207
Issue:1
Page Number:32 -
DOI: 10.1186/s12934-019-1080-6
ISSN/ISBN:1475-2859 (Electronic) 1475-2859 (Linking)
Abstract:"BACKGROUND: Serratia plymuthica WS3236 was selected for whole genome sequencing based on preliminary genetic and chemical screening indicating the presence of multiple natural product pathways. This led to the identification of a putative sodorifen biosynthetic gene cluster (BGC). The natural product sodorifen is a volatile organic compound (VOC) with an unusual polymethylated hydrocarbon bicyclic structure (C(16)H(26)) produced by selected strains of S. plymuthica. The BGC encoding sodorifen consists of four genes, two of which (sodA, sodB) are homologs of genes encoding enzymes of the non-mevalonate pathway and are thought to enhance the amounts of available farnesyl pyrophosphate (FPP), the precursor of sodorifen. Proceeding from FPP, only two enzymes are necessary to produce sodorifen: an S-adenosyl methionine dependent methyltransferase (SodC) with additional cyclisation activity and a terpene-cyclase (SodD). Previous analysis of S. plymuthica found sodorifen production titers are generally low and vary significantly among different producer strains. This precludes studies on the still elusive biological function of this structurally and biosynthetically fascinating bacterial terpene. RESULTS: Sequencing and mining of the S. plymuthica WS3236 genome revealed the presence of 38 BGCs according to antiSMASH analysis, including a putative sodorifen BGC. Further genome mining for sodorifen and sodorifen-like BGCs throughout bacteria was performed using SodC and SodD as queries and identified a total of 28 sod-like gene clusters. Using direct pathway cloning (DiPaC) we intercepted the 4.6 kb candidate sodorifen BGC from S. plymuthica WS3236 (sodA-D) and transformed it into Escherichia coli BL21. Heterologous expression under the control of the tetracycline inducible Ptet(O) promoter firmly linked this BGC to sodorifen production. By utilizing this newly established expression system, we increased the production yields by approximately 26-fold when compared to the native producer. In addition, sodorifen was easily isolated in high purity by simple head-space sampling. CONCLUSIONS: Genome mining of all available genomes within the NCBI and JGI IMG databases led to the identification of a wealth of sod-like pathways which may be responsible for producing a range of structurally unknown sodorifen analogs. Introduction of the S. plymuthica WS3236 sodorifen BGC into the fast-growing heterologous expression host E. coli with a very low VOC background led to a significant increase in both sodorifen product yield and purity compared to the native producer. By providing a reliable, high-level production system, this study sets the stage for future investigations of the biological role and function of sodorifen and for functionally unlocking the bioinformatically identified putative sod-like pathways"
Keywords:"Bacterial Proteins/metabolism Biosynthetic Pathways Bridged Bicyclo Compounds/*metabolism Cloning, Molecular Computational Biology Escherichia coli/genetics/*metabolism Genome, Bacterial *Multigene Family Octanes/*metabolism Pyrophosphatases/metabolism Se;"
Notes:"MedlineDuell, Elke R D'Agostino, Paul M Shapiro, Nicole Woyke, Tanja Fuchs, Thilo M Gulder, Tobias A M eng GU 1233/1-1/Deutsche Forschungsgemeinschaft/ CIPSM/Deutsche Forschungsgemeinschaft/ 503161/U.S. Department of Energy/ England 2019/02/09 Microb Cell Fact. 2019 Feb 7; 18(1):32. doi: 10.1186/s12934-019-1080-6"

 
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