Mathias Misiek scite author profile

The basidiomycetous tree pathogen Armillaria mellea (honey mushroom) produces a large variety of structurally related antibiotically active and phytotoxic natural products, referred to as the melleolides. During their biosynthesis, some members of the melleolide family of compounds undergo monochlorination of the aromatic moiety, whose biochemical and genetic basis was not known previously. This first study on basidiomycete halogenases presents the biochemical in vitro characterization of five flavin-dependent A. mellea enzymes (ArmH1 to ArmH5) that were heterologously produced in Escherichia coli. We demonstrate that all five enzymes transfer a single chlorine atom to the melleolide backbone. A 5-fold, secured biosynthetic step during natural product assembly is unprecedented. Typically, flavin-dependent halogenases are categorized into enzymes acting on free compounds as opposed to those requiring a carrier-protein-bound acceptor substrate. The enzymes characterized in this study clearly turned over free substrates. Phylogenetic clades of halogenases suggest that all fungal enzymes share an ancestor and reflect a clear divergence between ascomycetes and basidiomycetes.

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In Vivo and In Vitro Production Options for Fungal Secondary Metabolites

Schneider

Misiek

Hoffmeister

2008

Mol. Pharmaceutics

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Microbial natural products, among them a vast diversity of fungal origin, represent a major source for new drug candidates. Focusing on fungal metabolites, our review covers recent advances in the field of biotransformation, heterologous expression, in vivo production approaches, genomics, and the metabolism of unexplored fungal groups as options to generate and identify new compounds or optimize known ones.

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Genome mining reveals the evolutionary origin and biosynthetic potential of basidiomycete polyketide synthases

Lackner¹,

Misiek²,

Braesel³

et al. 2012

Fungal Genetics and Biology

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Structure and Cytotoxicity of Arnamial and Related Fungal Sesquiterpene Aryl Esters

et al. 2009

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We report on the structure elucidation of arnamial, a new Delta(2,4)-protoilludane everninate ester from the fungus Armillaria mellea, and on the apoptotic activity of arnamial as well as the cytotoxic activity of structurally related compounds on selected human cancer cells. Arnamial showed cytotoxicity against Jurkat T cells, MCF-7 breast adenocarcinoma, CCRF-CEM lymphoblastic leukemia, and HCT-116 colorectal carcinoma cells at IC50 = 3.9, 15.4, 8.9, and 10.7 microM, respectively, and the related aryl ester melledonal C showed cytotoxic activity against CCRF-CEM cells (IC50 = 14.75 microM). [1,2-13C2]Acetate feeding supports a polyketide origin of the orsellinic acid moiety of arnamial.

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Mathias Misiek

A Fivefold Parallelized Biosynthetic Process Secures Chlorination of Armillaria mellea (Honey Mushroom) Toxins

In Vivo and In Vitro Production Options for Fungal Secondary Metabolites

Genome mining reveals the evolutionary origin and biosynthetic potential of basidiomycete polyketide synthases

Structure and Cytotoxicity of Arnamial and Related Fungal Sesquiterpene Aryl Esters

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