"Work Package 1 (WP1) consisted of ""Substrate scope of cycloiosmerization and double stereodifferentiation"" which corresponds to all the results we reported in Section 1.1. Significant progress was made in exploring asymmetric rhodium-catalysed cycloisomerizations, and double stereo differentiation (cyclisation of substrates already containing stereocentres). A good understanding of the substrate scope and limitation was established.
Fewer results were obtained on (WP2) or (WP3), albeit these objectives remain under investigation by the Host Supervisor, building on the preliminary results obtained here. The main results involved the use of carbene and transition metal catalysis to construct polycyclic molecules in one step. This reactions proved more challenging to control than expected. The results obtained on double stereodifferentiation imply that a kinetic resolution process should be possible, where a racemic starting material undergoes selective reaction of just one enantiomer, the other remaining untouched. This work continues to be studied in the host group.
To maximise the benefit of the research to the fellow, a further avenue of research was undertaken, applying catalysis to the synthesis of a bioactive anticancer / antibiotic natural product stambomycin D. Here the fellow made substantial progress and established the synthesis of a 27 carbon fragment of the natural product. Key steps included an organocatalysed asymmetric aldol reaction, a zinc/titanium mediated asymmetric alkyne addition, a copper-catalysed hydroboration / oxidation, and a palladium-catalysed Suzuki cross-coupling to assemble a challenging diene part of the molecule. This work greatly enhanced the fellow's technical skillset, and was conducted in parallel with the methodology studies that formed the main focus of the grant.
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