E.K. McCranie scite author profile

Oligosaccharide natural products target a wide spectrum of biological processes including disruption of cell wall biosynthesis, interference of bacterial translation, and inhibition of human α-amylase. Correspondingly, oligosaccharides possess potential for development as treatments of such diverse diseases as bacterial infections and type II diabetes. Despite their potent and selective activities and potential clinical relevance, isolated bioactive secondary metabolic oligosaccharides are less prevalent than other classes of natural products and their biosynthesis has received comparatively less attention. This review highlights the unique modes of action and biosynthesis of four classes of bioactive oligosaccharides: the orthosomycins, moenomycins, saccharomicins, and acarviostatins.

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Oxidative cyclizations in orthosomycin biosynthesis expand the known chemistry of an oxygenase superfamily

McCulloch

McCranie

Smith

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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Orthosomycins are oligosaccharide antibiotics that include avilamycin, everninomicin, and hygromycin B and are hallmarked by a rigidifying interglycosidic spirocyclic ortho-δ-lactone (orthoester) linkage between at least one pair of carbohydrates. A subset of orthosomycins additionally contain a carbohydrate capped by a methylenedioxy bridge. The orthoester linkage is necessary for antibiotic activity but rarely observed in natural products. Orthoester linkage and methylenedioxy bridge biosynthesis require similar oxidative cyclizations adjacent to a sugar ring. We have identified a conserved group of nonheme iron, α-ketoglutarate-dependent oxygenases likely responsible for this chemistry. High-resolution crystal structures of the EvdO1 and EvdO2 oxygenases of everninomicin biosynthesis, the AviO1 oxygenase of avilamycin biosynthesis, and HygX of hygromycin B biosynthesis show how these enzymes accommodate large substrates, a challenge that requires a variation in metal coordination in HygX. Excitingly, the ternary complex of HygX with cosubstrate α-ketoglutarate and putative product hygromycin B identified an orientation of one glycosidic linkage of hygromycin B consistent with metal-catalyzed hydrogen atom abstraction from substrate. These structural results are complemented by gene disruption of the oxygenases evdO1 and evdMO1 from the everninomicin biosynthetic cluster, which demonstrate that functional oxygenase activity is critical for antibiotic production. Our data therefore support a role for these enzymes in the production of key features of the orthosomycin antibiotics.antibiotic biosynthesis | oxidative cyclization | crystal structure | nonheme iron α-ketoglutarate-dependent oxygenases

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Crystal Structure of AviO1 from Streptomyces viridochromogenes Tue57

McCulloch¹,

McCranie²,

Sarwar³

et al. 2015

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Crystal Structure of EvdO2 from Micromonospora carbonacea var. aurantiaca complexed with 2-oxoglutarate

McCulloch¹,

McCranie²,

Sarwar³

et al. 2015

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E.K. McCranie

Bioactive oligosaccharide natural products

Oxidative cyclizations in orthosomycin biosynthesis expand the known chemistry of an oxygenase superfamily

Crystal Structure of AviO1 from Streptomyces viridochromogenes Tue57

Crystal Structure of EvdO2 from Micromonospora carbonacea var. aurantiaca complexed with 2-oxoglutarate

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