Abstract
Melleolides and related fungal sesquiterpenoid aryl esters are antimicrobial and cytotoxic natural products derived from cultures of the Homobasidiomycetes genus Armillaria. The initial step in the biosynthesis of all melleolides involves cyclization of the universal sesquiterpene precursor farnesyl diphosphate to produce protoilludene, a reaction catalyzed by protoilludene synthase. We achieved the partial purification of protoilludene synthase from a mycelial culture of Armillaria gallica and found that 6-protoilludene was its exclusive reaction product. Therefore, a further isomerization reaction is necessary to convert the 6–7 double bond into the 7–8 double bond found in melleolides. We expressed an A. gallica protoilludene synthase cDNA in Escherichia coli, and this also led to the exclusive production of 6-protoilludene. Sequence comparison of the isolated sesquiterpene synthase revealed a distant relationship to other fungal terpene synthases. The isolation of the genomic sequence identified the 6-protoilludene synthase to be present as a single copy gene in the genome of A. gallica, possessing an open reading frame interrupted with eight introns.
Highlights
Terpenes are the largest and most diverse group of natural products, with more than 50,000 known structures [1]
Fungi are a rich source of physiologically active natural products, and mushroom-forming fungi and other Basidiomycota are well known for the synthesis of numerous bioactive sesquiterpenoids and, to a lesser extent, diterpenoids [2, 3]
Natural products traditionally represent a good source of antibiotic substances
Summary
Armillaria (commonly known as honey mushrooms and currently classified in the family Physalaciaceae). Armillaria species are regarded as edible mushrooms, but many species are notorious forest parasites, with a host range of the most virulent species, primarily Armillaria mellea and Armillaria ostoyae, comprising Ͼ600 species worldwide [30]. This is reflected by their ability to form rhizomorphs that allow them to grow across nutrient-poor areas located between large food sources such as tree stumps and, to infect entire forests. The characteristic secondary metabolites produced by Armillaria species are protoilludene-type sesquiterpenoids, potent antimicrobial molecules known as melleolides. We found that A. gallica protoilludene synthase exclusively produces 6-protoilludene as a reaction product, requiring a double bond rearrangement from the 6 –7 to the 7– 8 position encountered in the melleolides
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