Total Synthesis of Citreochlorol Monochloro Analogs via a Catalytically Enantioselective Carbonyl Allylation

An efficient synthetic route to citreochlorol analogs, halogenated polyketide secondary metabolites, is described. The key features are Krische's enantioselective carbonyl allylation, IBr-promoted cyclization, and regioselective epoxide opening. The importance of the route lies in the access of the versatile epoxy ether 14, which opens access to the citreochlorol monochloro derivatives 5 and 6.

Epoxidation and late-stage C-H functionalization by P450 TamI is mediated by variant heme-iron oxidizing species

P450-catalyzed hydroxylation reactions are well understood mechanistically including the identity of the active oxidizing species. However, the catalytically active heme-iron species in P450 iterative oxidation cascades that involve mechanistically divergent pathways and distinct carbon atoms within a common substrate remains unexplored. Recently, we reported the enzymatic synthesis of tri-functionalized tirandamycin O (9) and O’ (10) using a bacterial P450 TamI variant and developed mechanistic hypotheses to explore their formation. Here, we report the ability of bacterial P450 TamI L295A to shift between different oxidizing species as it catalyzes the sequential epoxidation, hydroxylation and radical-catalyzed epoxide-opening cascade to create new tirandamycin antibiotics. We also provide evidence that the TamI peroxo-iron species could be a viable catalyst to enable nucleophilic epoxide opening in the absence of iron-oxo Compound I. Using site-directed mutagenesis, kinetic solvent isotope effects, artificial oxygen surrogates, end-point assays, and density functional theory (DFT) calculations, we provide new insights into the active oxidant species that P450 TamI employs to introduce its unique pattern of oxidative decorations.

Synthetic Studies on Viridin Skeleton through Regio- and Stereoselective Functionalization of the AE-Ring Moiety

4,5,6,7-Tetrahydroisobenzofurans, corresponding to the AC(D)E ring structure of viridin and equipped with required substituents on the A-ring, were synthesized via the Diels-Alder adduct of a furan derivative and maleic anhydride with high regio- and stereoselectivities. The key steps of this work include the regioselective opening of the tetrahydrofuran, stereoselective epoxidation, and AlMe3-mediated regioselective epoxide opening followed by stereoselective C-methylation.

Highly Diastereoselective Construction of Carbon– Heteroatom Quaternary Stereogenic Centers in the Synthesis of Analogs of Bioactive Compounds: From Monofluorinated Epoxyalkylphosphonates to α-Fluoro-, β-, or γ-Amino Alcohol Derivatives of Alkylphosphonates

The synthesis of the stable surrogates of an important amino acid (R)-4-amino-3-hydroxybutyric acid (GABOB) such as substituted hydroxy aminophosphonic acids bearing a quaternary stereogenic center is presented. Highly diastereoselective formations of fluorinated spiroepoxy alkylphosphonate or related tertiary carbon-containing oxiranes from β-keto phosphonates possessing methyl, phenyl, or cyclohexenyl substituents, are reported. Stereoselective acid-promoted epoxide opening by bromide or azide followed by reduction/protection afforded tertiary bromides or N-Boc derivatives of β-amino-γ-hydroxy alkylphosphonates in most cases, while the reactions of oxiranes with different amines yielded their β-hydroxy-γ-amino regioisomers. Surprisingly, during the synthesis of amino phosphonic acids, we observe that the acid-induced rearrangement proceeded in a high diastereospecific manner, leading finally to substituted β-hydroxy-γ-aminoalkylphosphonic acids.

Chemical Diversity of Volatile Macrocylic Lactones from Frogs

For a long time, frogs were believed to communicate primarily via the acoustic channel, but during the last decades it became obvious that various lineages also use chemical communication. In this Account we present our research on the identification of volatile lactones from Madagascan Mantellidae and African Hyperoliidae frogs. Both possess male specific glands that can disseminate a range of volatile compounds. Key constituents are macrocyclic lactones. They show high variability in structure and occurrence. We focus here on the synthetic approaches we have used to clarify constitution and configuration of the glandular compounds. Key synthetic methods are ring-closing metathesis and nucleophilic epoxide opening. Often, but not always, the natural compounds occurs in amounts that excludes their investigation by NMR spectroscopy. Instead, we use GC/MS analysis, GC/IR, microreactions, and synthesis to identify such components. Several aspects of our work will be described giving some insight in our scientific approach.1 Introduction2 Macrocylic Lactones from the Fatty Acid Biosynthetic Pathway3 Unsaturated Lactones4 Terpenoid Lactones5 Macrolide Occurrence6 Conclusions