Erica E. Schultz scite author profile

Alkylation of aromatic rings with alkyl halides is an important transformation in organic synthesis, yet an enzymatic equivalent is unknown. Here, we report that cylindrocyclophane biosynthesis in Cylindrospermum licheniforme ATCC 29412 involves chlorination of an unactivated carbon center by a novel halogenase, followed by a previously uncharacterized enzymatic dimerization reaction featuring sequential, stereospecific alkylations of resorcinol aromatic rings. Discovery of the enzymatic machinery underlying this unique biosynthetic carbon-carbon bond formation has implications for biocatalysis and metabolic engineering.

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Biocatalytic Friedel–Crafts Alkylation Using a Promiscuous Biosynthetic Enzyme

Schultz

Braffman

Luescher

et al. 2019

Angew Chem Int Ed

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Chemoselective N‐Acylation of Indoles and Oxazolidinones with Carbonylazoles

2012

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Application of In Situ-Generated Rh-Bound Trimethylenemethane Variants to the Synthesis of 3,4-Fused Pyrroles

2013

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Rh-bound trimethylenemethane variants generated from the interaction of a Rh-carbenoid with an allene have been applied to the synthesis of substituted 3,4-fused pyrroles. The pyrrole products are useful starting points for the syntheses of various dipyrromethene ligands. Furthermore, the methodology has been applied to a synthesis of the natural product cycloprodigiosin, which demonstrates antitumor and immunosuppressor activity.

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Expedient Synthesis of Fused Azepine Derivatives Using a Sequential Rhodium(II)‐Catalyzed Cyclopropanation/1‐Aza‐Cope Rearrangement of Dienyltriazoles

2014

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A general method for the formation of fused dihydroazepine derivatives from 1-sulfonyl-1,2,3-triazoles bearing a tethered diene is reported. The process involves an intramolecular cyclopropanation of an α-imino Rh(II)-carbenoid, leading to a transient 1-imino-2-vinylcyclopropane intermediate which rapidly undergoes a 1-aza-Cope rearrangement to generate fused dihydroazepine derivatives in moderate to excellent yields. The reaction proceeds with similar efficiency on gram-scale. The use of catalyst-free conditions leads to the formation of a novel [4.4.0] bicyclic heterocycle.

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Erica E. Schultz

A new strategy for aromatic ring alkylation in cylindrocyclophane biosynthesis

Biocatalytic Friedel–Crafts Alkylation Using a Promiscuous Biosynthetic Enzyme

Chemoselective N‐Acylation of Indoles and Oxazolidinones with Carbonylazoles

Application of In Situ-Generated Rh-Bound Trimethylenemethane Variants to the Synthesis of 3,4-Fused Pyrroles

Expedient Synthesis of Fused Azepine Derivatives Using a Sequential Rhodium(II)‐Catalyzed Cyclopropanation/1‐Aza‐Cope Rearrangement of Dienyltriazoles

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