School of Chemistry - Theses
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ItemTowards the synthesis of the emestrin family of natural products( 2018)A Cope rearrangement of a vinyl pyrrole epoxide (397) was utilised to form the dihydrooxepino[4,3-b]pyrrole core (398) of the emestrin family of natural products which involved the first examples of the dearomatisation of pyrrole in this type of rearrangement. It was found that an electron withdrawing ester substituent on the C2 position of the epoxide was essential for the [3,3]-rearrangement to occur. The vinyl pyrrole epoxides were synthesised in an efficient manner by a vinylogous Darzens reaction. Density functional calculations showed lower transition state energies for Cope rearrangements of epoxides with C2 esters when compared to the unsubstituted substrates which agreed with the observed experimental results. Silyl substituted vinyl bromide esters also participated in the Darzens reactions to give the desired vinyl pyrrole epoxides in good to excellent yields. Only the triethoxysilyl vinyl epoxide 313c underwent Cope rearrangement to provide the fully substituted emestrin core dihydrooxepine. The anion derived from an aryl bromosulfone did not give the Darzens product but underwent a previously unobserved stereoselective trimerization to afford the cyclohexene 343 as a single diastereoisomer. A mechanistic rationale involving SN2’ additions, [3,3]-Cope rearrangements and a stereoselective intramolecular conjugate addition was proposed and this was supported by density functional theory (DFT) calculations. A four-step total synthesis of biaryl ether natural product violaceic acid (11) is described. The steps include an SNAr reaction to afford the biaryl ether 136, tin chloride-mediated chemoselective reduction of the nitro group to amine 135. A Cu-mediated Sandmeyer reaction of 135 gave violaceic acid methyl ester 374 which is hydrolysed to give pure violaceic acid 11. An improved synthesis of the known biaryl iodide 119 is also described via a Sandmeyer reaction of amine 135.
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ItemStudies towards the biomimetic total synthesis of dihydrooxepin-containing epipolythiodiketopiperazine natural products( 2009)SCH-64874 (5) is a fungal metabolite that inhibits the epidermal growth factor receptor (EGFR), a high-profile oncology target, with an IC50 of 1.0µg/mL. It is of particular interest because it is unlikely to inhibit the protein’s intramolecular kinase domain (as typical chemical EGFR inhibitors do), and may act instead by obstructing the receptor’s ligand binding and/or dimerisation processes. In this work, the epipolythiodiketopiperazine family of natural products is reviewed, leading to a discussion of the probable biosynthetic pathways by which these complex molecules are produced in nature. A laboratory synthesis based on this proposed biosynthesis was subsequently proposed and undertaken. The oxidation of aromatic systems was investigated, which led to the synthesis, for the first time, of complex functionalised arene oxides such as 178. The regioselective epoxidation of 178 was accessed by derivatisation as the Diels-Alder adduct 180. Subsequent epoxidation and manipulation led to the amino alcohol 195b, possessing the exo-epoxide endo-alcohol stereochemistry shown. This stereochemical assignment was based on detailed NMR analysis of the product, and also on AM1 semi-empirical molecular modelling and Ab initio molecular orbital calculations, which were used to evaluate the relative stabilities of the cyclisation products.