The regular bicyclic spiro motif is highly abundant given its synthetic accessibility while the diastereomer-virtually obtained through inversion at the central atom-is almost unknown. We have developed methodology to access the elusive inverted spiro architecture by employing a covalent template-directed approach. Comparison with the regular spiro bicycle analog unequivocally established the diastereomeric relationship, providing insight into the fascinating stereochemical and structural properties.
Iso‐maleimycin, a previously unknown constitutional isomer of the antibiotic maleimycin, has been detected in an extract of Streptomyces sp. QL37. Chemical synthesis of both maleimycin (20 % yield over seven steps) and iso‐maleimycin, (15 % yield over six steps) allowed access to reference materials for identification. Gas Chromatography coupled Mass Spectrometry (GC‐MS) analysis demonstrated that of the two isomers, only iso‐maleimycin was present in the extract. This finding supports our hypothesis that iso‐maleimycin is a biosynthetic intermediate of lugdunomycin. Iso‐maleimycin displays low antibiotic activity, with a Minimum Inhibitory Concentration (MIC) value on both E. coli and B. subtilis of 250 µg/mL.
The first total synthesis of elmonin and pratenone A,
two complex
rearranged angucyclinones from Streptomyces, is reported.
Using peri-directed C–H functionalization,
the key naphthalene fragment present in both synthetic targets was
efficiently prepared. Coupling to two anisole-derived fragments gave
access to the natural products, in which elmonin was prepared using
a biomimetic spiro-ketalization.
In the study of glycosidases, a class of activity-based probes (ABPs), that are carbocyclic mimics of natural carbohydrates and can covalently bind the enzyme, have proven to be useful tools. This type of ABP has however not yet been reported for sialidases, glycosidases involved in various important biological processes in both health and disease, which hydrolyse terminal sialic acids. Here we present our study towards the synthesis of a carbocyclic sialic acid suitable for conversion into ABPs. We developed a route starting from a chiral furanone that includes a key early stage nitrone [3 + 2] cycloaddition to install most of the chiral centres present in N-acetylneuraminic acid. The final stereocentre is installed via a Barbier alkylation, after which a ring closing metathesis forms the pivotal carbocyclic intermediate. Due to challenges in the final stretch, we were not able to convert this intermediate into an N-acetylneuraminic acid ABP. However, the work presented here still represents a versatile route to potential future carbocyclic sialic acid derivatives.
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