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Giant polyketide synthase enzymes in the biosynthesis of giant marine polyether toxins

Timothy Fallon, Vikram V. Shende, Igor H. Wierzbicki, Amanda L. Pendleton, Nathan F. Watervoot, Robert Auber, David J. Gonzalez, Jennifer H. Wisecaver, Bradley S. Moore

2024Science34 citationsDOIOpen Access PDF

Abstract

Prymnesium parvum are harmful haptophyte algae that cause massive environmental fish kills. Their polyketide polyether toxins, the prymnesins, are among the largest nonpolymeric compounds in nature and have biosynthetic origins that have remained enigmatic for more than 40 years. In this work, we report the “PKZILLAs,” massive P. parvum polyketide synthase (PKS) genes that have evaded previous detection. PKZILLA-1 and -2 encode giant protein products of 4.7 and 3.2 megadaltons that have 140 and 99 enzyme domains. Their predicted polyene product matches the proposed pre-prymnesin precursor of the 90-carbon–backbone A-type prymnesins. We further characterize the variant PKZILLA-B1, which is responsible for the shorter B-type analog prymnesin-B1, from P. parvum RCC3426 and thus establish a general model of haptophyte polyether biosynthetic logic. This work expands expectations of genetic and enzymatic size limits in biology.

Topics & Concepts

Polyketide synthaseHaptophytePolyketideBiosynthesisEnzymeATP synthaseAcyl carrier proteinBiochemistryBiologyGeneChemistryNutrientEcologyPhytoplanktonProtist diversity and phylogenyMicrobial Community Ecology and PhysiologyGenomics and Phylogenetic Studies