Heterologous expression of a polyketide synthase ACRTS2 in Aspergillus oryzae produces host-selective ACR toxins: coproduction of minor metabolites

Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase ACRTS2 gene was heterologously expressed in Aspergillus oryzae (AO). To confirm the production of 1 in AO, the detection limit and suppressing dec...

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Published in	Bioscience, biotechnology, and biochemistry Vol. 86; no. 3; pp. 287 - 293
Main Authors	Kotani, Akari, Ozaki, Taro, Takino, Junya, Mochizuki, Susumu, Akimitsu, Kazuya, Minami, Atsushi, Oikawa, Hideaki
Format	Journal Article
Language	English
Published	England 24.02.2022
Subjects	Aspergillus oryzae - enzymology Aspergillus oryzae - genetics Aspergillus oryzae - metabolism Gene Expression Mycotoxins - biosynthesis Mycotoxins - genetics Mycotoxins - metabolism Polyketide Synthases - genetics Polyketide Synthases - metabolism heterologous expression Aspergillus oryzae fungal metabolites ACR toxin host-selective toxin
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Abstract	Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase ACRTS2 gene was heterologously expressed in Aspergillus oryzae (AO). To confirm the production of 1 in AO, the detection limit and suppressing decarboxylation were improved, and these efforts led us to conclude the direct production of 1 instead of its decarboxylation product. During this examination, minor ACR-toxin-related metabolites were found. Their structure determination enabled us to propose a decarboxylation mechanism and a novel branching route forming byproducts from the coupling of the dihydropyrone moiety of 1 with the acetaldehyde and kojic acid abundant in AO. The involvement of putative cyclase ACRTS3 in the chain release of linear polyketide was excluded by the coexpression analysis of ACRTS2 and ACRTS3. Taken together, we concluded that the production of 1 in AO is solely responsible for ACRTS2.
AbstractList	Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase ACRTS2 gene was heterologously expressed in Aspergillus oryzae (AO). To confirm the production of 1 in AO, the detection limit and suppressing decarboxylation were improved, and these efforts led us to conclude the direct production of 1 instead of its decarboxylation product. During this examination, minor ACR-toxin-related metabolites were found. Their structure determination enabled us to propose a decarboxylation mechanism and a novel branching route forming byproducts from the coupling of the dihydropyrone moiety of 1 with the acetaldehyde and kojic acid abundant in AO. The involvement of putative cyclase ACRTS3 in the chain release of linear polyketide was excluded by the coexpression analysis of ACRTS2 and ACRTS3. Taken together, we concluded that the production of 1 in AO is solely responsible for ACRTS2. ABSTRACT Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase ACRTS2 gene was heterologously expressed in Aspergillus oryzae (AO). To confirm the production of 1 in AO, the detection limit and suppressing decarboxylation were improved, and these efforts led us to conclude the direct production of 1 instead of its decarboxylation product. During this examination, minor ACR-toxin-related metabolites were found. Their structure determination enabled us to propose a decarboxylation mechanism and a novel branching route forming byproducts from the coupling of the dihydropyrone moiety of 1 with the acetaldehyde and kojic acid abundant in AO. The involvement of putative cyclase ACRTS3 in the chain release of linear polyketide was excluded by the coexpression analysis of ACRTS2 and ACRTS3. Taken together, we concluded that the production of 1 in AO is solely responsible for ACRTS2. Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase ACRTS2 gene was heterologously expressed in Aspergillus oryzae (AO). To confirm the production of 1 in AO, the detection limit and suppressing decarboxylation were improved, and these efforts led us to conclude the direct production of 1 instead of its decarboxylation product. During this examination, minor ACR-toxin-related metabolites were found. Their structure determination enabled us to propose a decarboxylation mechanism and a novel branching route forming byproducts from the coupling of the dihydropyrone moiety of 1 with the acetaldehyde and kojic acid abundant in AO. The involvement of putative cyclase ACRTS3 in the chain release of linear polyketide was excluded by the coexpression analysis of ACRTS2 and ACRTS3. Taken together, we concluded that the production of 1 in AO is solely responsible for ACRTS2.Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase ACRTS2 gene was heterologously expressed in Aspergillus oryzae (AO). To confirm the production of 1 in AO, the detection limit and suppressing decarboxylation were improved, and these efforts led us to conclude the direct production of 1 instead of its decarboxylation product. During this examination, minor ACR-toxin-related metabolites were found. Their structure determination enabled us to propose a decarboxylation mechanism and a novel branching route forming byproducts from the coupling of the dihydropyrone moiety of 1 with the acetaldehyde and kojic acid abundant in AO. The involvement of putative cyclase ACRTS3 in the chain release of linear polyketide was excluded by the coexpression analysis of ACRTS2 and ACRTS3. Taken together, we concluded that the production of 1 in AO is solely responsible for ACRTS2.
Author	Akimitsu, Kazuya Mochizuki, Susumu Oikawa, Hideaki Kotani, Akari Minami, Atsushi Ozaki, Taro Takino, Junya
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References	Hashimoto (2022022404590500200_bib7) 2019; 29 Kahlert (2022022404590500200_bib12) 2021; 60 Matsuoka (2022022404590500200_bib16) 2017; 83 Bye (2022022404590500200_bib1) 1970; 117 Hagiwara (2022022404590500200_bib6) 2000; 53 Terabayashi (2022022404590500200_bib18) 2010; 47 Izumi (2022022404590500200_bib10) 2012; 25 Wangun (2022022404590500200_bib19) 2007; 2007 Li (2022022404590500200_bib13) 2003; 26 Lichtenthaler (2022022404590500200_bib14) 1991; 30 Fujii (2022022404590500200_bib2) 2020; 59 Fujii (2022022404590500200_bib3) 2016; 80 Izumi (2022022404590500200_bib9) 2012; 102 Ichimoto (2022022404590500200_bib8) 1965; 29 Mao (2022022404590500200_bib15) 2015; 137 Takino (2022022404590500200_bib17) 2021; 60 Gohbara (2022022404590500200_bib5) 1976; 40 Gardner (2022022404590500200_bib4) 1985; 49 Julien (2022022404590500200_bib11) 2006; 13
References_xml	– volume: 80 start-page: 426 year: 2016 ident: 2022022404590500200_bib3 article-title: Reconstitution of biosynthetic machinery of fungal polyketides: unexpected oxidations of biosynthetic intermediates by expression host publication-title: Biosci Biotechnol Biochem doi: 10.1080/09168451.2015.1104234 contributor: fullname: Fujii – volume: 49 start-page: 1235 year: 1985 ident: 2022022404590500200_bib4 article-title: Structure of the major component of ACRL-toxins, host-specific pathotoxic compounds produced by alternaria citri publication-title: Agr Biol Chem contributor: fullname: Gardner – volume: 25 start-page: 1419 year: 2012 ident: 2022022404590500200_bib10 article-title: A polyketide synthase gene, ACRTS2, is responsible for biosynthesis of host-selective ACR-toxin in the rough lemon pathotype of Alternaria alternata publication-title: Mol Plant Microbe In doi: 10.1094/MPMI-06-12-0155-R contributor: fullname: Izumi – volume: 60 start-page: 23403 year: 2021 ident: 2022022404590500200_bib17 article-title: Biochemistry-guided prediction of the absolute configuration of fungal reduced polyketides publication-title: Angew Chem Int Ed doi: 10.1002/anie.202110658 contributor: fullname: Takino – volume: 2007 start-page: 3292 year: 2007 ident: 2022022404590500200_bib19 article-title: Squarrosidine and pinillidine: 3,3′-fused bis(styrylpyrones) from Pholiota squarrosa and Phellinus pini publication-title: Eur J Org Chem doi: 10.1002/ejoc.200700090 contributor: fullname: Wangun – volume: 26 start-page: 532 year: 2003 ident: 2022022404590500200_bib13 article-title: γ-Pyrone derivatives, kojic acid methyl ethers from a marine-derived fungus Altenaria sp publication-title: Arch Pharm Res doi: 10.1007/BF02976876 contributor: fullname: Li – volume: 53 start-page: 549 year: 2000 ident: 2022022404590500200_bib6 article-title: Synthesis of methylenebis(4-hydroxy-2-pyrone) or methylenebis(4-hydroxycoumarin) derivatives by organic solid state reaction publication-title: Heterocycles doi: 10.3987/COM-99-8817 contributor: fullname: Hagiwara – volume: 102 start-page: 741 year: 2012 ident: 2022022404590500200_bib9 article-title: Role of the pathotype-specific ACRTS1 gene encoding a hydroxylase involved in the biosynthesis of host-selective ACR-Toxin in the rough lemon pathotype of Alternaria alternata publication-title: Phytopathology doi: 10.1094/PHYTO-02-12-0021-R contributor: fullname: Izumi – volume: 59 start-page: 8464 year: 2020 ident: 2022022404590500200_bib2 article-title: Shimalactone biosynthesis involves spontaneous double bicyclo-ring formation with 8π-6π electrocyclization publication-title: Angew Chem Int Ed Engl doi: 10.1002/anie.202001024 contributor: fullname: Fujii – volume: 29 start-page: 126686 year: 2019 ident: 2022022404590500200_bib7 article-title: Functional expression of a highly-reducing polyketide synthase of Emericella variecolor IFM42010, an asteltoxin-producing strain, resulted in production of two polyenoic β-ketolactones with opposite stereochemistry publication-title: Bioorg Med Chem Lett doi: 10.1016/j.bmcl.2019.126686 contributor: fullname: Hashimoto – volume: 60 start-page: 11423 year: 2021 ident: 2022022404590500200_bib12 article-title: Biosynthesis of 6-hydroxymellein requires a collaborating polyketide synthase-like enzyme publication-title: Angew Chem Int Ed doi: 10.1002/anie.202100969 contributor: fullname: Kahlert – volume: 47 start-page: 953 year: 2010 ident: 2022022404590500200_bib18 article-title: Identification and characterization of genes responsible for biosynthesis of kojic acid, an industrially important compound from Aspergillus oryzae publication-title: Fungal Genet Biol doi: 10.1016/j.fgb.2010.08.014 contributor: fullname: Terabayashi – volume: 117 start-page: 237 year: 1970 ident: 2022022404590500200_bib1 article-title: Biosynthesis of 4-Hydroxycoumarin and dicoumarol by Aspergillus fumigatus Fresenius publication-title: Biochem J doi: 10.1042/bj1170237 contributor: fullname: Bye – volume: 83 start-page: 50 year: 2017 ident: 2022022404590500200_bib16 article-title: Toward functional analysis of ACR toxin biosynthesis gene cluster publication-title: Jpn J Phytopathol contributor: fullname: Matsuoka – volume: 29 start-page: 94 year: 1965 ident: 2022022404590500200_bib8 article-title: Studies on kojic acid and its related γ-pyrone compounds: Part 7 publication-title: Agr Biol Chem contributor: fullname: Ichimoto – volume: 30 start-page: 1339 year: 1991 ident: 2022022404590500200_bib14 article-title: ACRL toxin-I-convergent total synthesis of its 3-methyl enol ether from d-glucose publication-title: Angew Chem Int Edit doi: 10.1002/anie.199113391 contributor: fullname: Lichtenthaler – volume: 137 start-page: 11904 year: 2015 ident: 2022022404590500200_bib15 article-title: Efficient biosynthesis of fungal polyketides containing the dioxabicyclo-octane ring system publication-title: J Am Chem Soc doi: 10.1021/jacs.5b07816 contributor: fullname: Mao – volume: 40 start-page: 1453 year: 1976 ident: 2022022404590500200_bib5 article-title: Isolation and structure elucidation of colletopyrone from Colletotrichum nicotianae publication-title: Agr Biol Chem contributor: fullname: Gohbara – volume: 13 start-page: 1277 year: 2006 ident: 2022022404590500200_bib11 article-title: Analysis of the ambruticin and jerangolid gene clusters of Sorangium cellulosum reveals unusual mechanisms of polyketide biosynthesis publication-title: Chem Biol doi: 10.1016/j.chembiol.2006.10.004 contributor: fullname: Julien
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Snippet	Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide synthase... ABSTRACT Previously, we succeeded to produce the core structure of the host-selective ACR toxin (1) on brown leaf spot on rough lemon when the polyketide...
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SubjectTerms	Aspergillus oryzae - enzymology Aspergillus oryzae - genetics Aspergillus oryzae - metabolism Gene Expression Mycotoxins - biosynthesis Mycotoxins - genetics Mycotoxins - metabolism Polyketide Synthases - genetics Polyketide Synthases - metabolism
Title	Heterologous expression of a polyketide synthase ACRTS2 in Aspergillus oryzae produces host-selective ACR toxins: coproduction of minor metabolites
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