Identification of sesquiterpene synthases from the Basidiomycota Coniophora puteana for the efficient and highly selective β-copaene and cubebol production in E. coli

Mischko, Wolfgang; Hirte, Max; Fuchs, Monika; Mehlmer, Norbert; Brück, Thomas

doi:10.1186/s12934-018-1010-z

Cited by 39 publications

(54 citation statements)

References 64 publications

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“…Nicotiana benthamiana expression revealed SiTPS15 as an a-bisabolol synthase, SiTPS20 as a b-caryophyllene synthase, SiTPS19 and SiTPS27 as d-cadinene synthases and SiTPS26 as a germacrene D-synthase compared with commercial standards, while SiTPS38 produced germacrene-D-4-ol as verified by comparison with the product of a d-cadinene synthase variant (GhCAD:N403P/L405H) from cotton (Gossypium arboreum)(Yoshikuni et al, 2006) (Figures 4a, e and S5). Co-expression of enzymes not showing activity in N. benthamiana with ZmFPPS in E. coli identified SiTPS21 as a cubebol synthase as validated by comparison with the product profile of cubebol synthase from Coniophora puteana(Mischko et al, 2018) (Figures 4e,f and S5). The primary product of SiTPS25 featured mass ions of m/z 161, 207, 222 and 240 (…”

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confidence: 75%

“…(Table S1) (Wang et al, 2011;Mafu et al, 2018). Additional genes used for producing authentic standards, namely G. arboreum germacrene-D-4-ol/ d-cadinene synthase (NM_001330020) variant N403P/L405H and C. puteana cubebol synthase, Copu3 (XP_007765978), were synthesized for expression in E. coli and cloned into pET-DUET1 according to published literature (Yoshikuni et al, 2006;Mischko et al, 2018).…”

Section: Gene Discovery Synthesis and Cloningmentioning

confidence: 99%

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The foxtail millet (Setaria italica) terpene synthase gene family

et al. 2020

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SUMMARY Terpenoid metabolism plays vital roles in stress defense and the environmental adaptation of monocot crops. Here, we describe the identification of the terpene synthase (TPS) gene family of the panicoid food and bioenergy model crop foxtail millet (Setaria italica). The diploid S. italica genome contains 32 TPS genes, 17 of which were biochemically characterized in this study. Unlike other thus far investigated grasses, S. italica contains TPSs producing all three ent‐, (+)‐ and syn‐copalyl pyrophosphate stereoisomers that naturally occur as central building blocks in the biosynthesis of distinct monocot diterpenoids. Conversion of these intermediates by the promiscuous TPS SiTPS8 yielded different diterpenoid scaffolds. Additionally, a cytochrome P450 monooxygenase (CYP99A17), which genomically clustered with SiTPS8, catalyzes the C19 hydroxylation of SiTPS8 products to generate the corresponding diterpene alcohols. The presence of syntenic orthologs to about 19% of the S. italica TPSs in related grasses supports a common ancestry of selected pathway branches. Among the identified enzyme products, abietadien‐19‐ol, syn‐pimara‐7,15‐dien‐19‐ol and germacrene‐d‐4‐ol were detectable in planta, and gene expression analysis of the biosynthetic TPSs showed distinct and, albeit moderately, inducible expression patterns in response to biotic and abiotic stress. In vitro growth‐inhibiting activity of abietadien‐19‐ol and syn‐pimara‐7,15‐dien‐19‐ol against Fusarium verticillioides and Fusarium subglutinans may indicate pathogen defensive functions, whereas the low antifungal efficacy of tested sesquiterpenoids supports other bioactivities. Together, these findings expand the known chemical space of monocot terpenoid metabolism to enable further investigations of terpenoid‐mediated stress resilience in these agriculturally important species.

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confidence: 75%

Section: Gene Discovery Synthesis and Cloningmentioning

confidence: 99%

The foxtail millet (Setaria italica) terpene synthase gene family

et al. 2020

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“…43 Finally, Haematococcus lacustris idi was used in the highest titre reports for cubebol, bcopaene, and cembratriene-ol production (Table S1 †). 44,45…”

Section: The Native Mep Pathwaymentioning

confidence: 99%

Alternative metabolic pathways and strategies to high-titre terpenoid production inEscherichia coli

2022

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“…The appeal is obvious, it is a unicellular, well understood and very fastgrowing organism, and robust techniques and tools for its manipulation are available. Examples of its use include, the heterologous expression of sesquiterpene synthases from Coniophora puteana for use in generating β-copaene and cubebol, which were then used to create a heterologous microbial production system, with yields that exceeded all previously published results for these compounds (Mischko et al, 2018). The unspecific peroxygenase MroUPO from the basidiomycete Marasmius rotula was expressed in E. coli alongside computationally guided mutated variants for the purposes of optimising the enzyme (Carro et al, 2019).…”

Section: Platforms For Heterologous Expression Of Basidiomycete Gene mentioning

confidence: 99%

Recent developments of tools for genome and metabolome studies in basidiomycete fungi and their application to natural product research

2020

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Basidiomycota are a large and diverse phylum of fungi. They can make bioactive metabolites that are used or have inspired the synthesis of antibiotics and agrochemicals. Terpenoids are the most abundant class of natural products encountered in this taxon. Other natural product classes have been described, including polyketides, peptides, and indole alkaloids. The discovery and study of natural products made by basidiomycete fungi has so far been hampered by several factors, which include their slow growth and complex genome architecture. Recent developments of tools for genome and metabolome studies are allowing researchers to more easily tackle the secondary metabolome of basidiomycete fungi. Inexpensive long-read whole-genome sequencing enables the assembly of high-quality genomes, improving the scaffold upon which natural product gene clusters can be predicted. CRISPR/Cas9-based engineering of basidiomycete fungi has been described and will have an important role in linking natural products to their genetic determinants. Platforms for the heterologous expression of basidiomycete genes and gene clusters have been developed, enabling natural product biosynthesis studies. Molecular network analyses and publicly available natural product databases facilitate data dereplication and natural product characterisation. These technological advances combined are prompting a revived interest in natural product discovery from basidiomycete fungi.This article has an associated Future Leader to Watch interview with the first author of the paper.

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Identification of sesquiterpene synthases from the Basidiomycota Coniophora puteana for the efficient and highly selective β-copaene and cubebol production in E. coli

Cited by 39 publications

References 64 publications

The foxtail millet (Setaria italica) terpene synthase gene family

The foxtail millet (Setaria italica) terpene synthase gene family

Alternative metabolic pathways and strategies to high-titre terpenoid production inEscherichia coli

Recent developments of tools for genome and metabolome studies in basidiomycete fungi and their application to natural product research

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