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Theses on any subject submitted by the academic libraries in the UK and Ireland.
Emphasizing the impact of metathesis in natural product synthesis through the different types of key reactions, this is a comprehensive view of a hot topic. Written by top international authors, this ready reference is clearly structured and packed with important information, including representative experimental procedures for practical applications. A real must-have for anyone working in natural product synthesis.
This thesis focuses on the development of efficient and scalable total syntheses of natural products that can be used as preferred scaffolds for anti-infective drug discovery. It describes the total synthesis of two classes of antimicrobial non-ribosomal peptides (NRPs) – teixobactin and the skyllamycins – with subsequent biological evaluation. The first part describes the first total synthesis of teixobactin by means of a solid-phase peptide synthesis-macrolactamisation approach, yielding a synthetic natural product that can combat a number of clinically relevant Gram-positive bacterial pathogens. The second part describes the first total synthesis of skyllamycins A-C, a family of structurally complex cyclic NRPs, which inhibit the growth of the Pseudomonas aeruginosa biofilms that are responsible for significant mortality among cystic fibrosis patients.
Work was undertaken towards the synthesis of the promising antibiotic lactonamycin (iii). Following the work of Parsons et al. it was proposed that cyclisation of the ene-diyne (i) would give access to advanced pentacyclic intermediate (ii) and that from this a total synthesis of lactonamycin would be achieved (scheme I). Scheme I : Proposed Parsons, Board, Waters cyclisation to form the pentacycle (iii)(For image refer to pdf). A synthesis towards the cyclisation precursor (i) was carried out and a route to the key tetrasubstituted phthalide (v) established. Further chemistry was proposed to complete the synthesis of lactonamycin (scheme II). Scheme II : Formation of a fully substituted benzolactone.(For image refer to pdf). During attempts to introduce the [beta]-bromoallyl group of key intermediate (v) using a high temperature Claisen rearrangement it was established that the benzodioxin (vii) underwent thermolysis to generate the reactive quinone methide intermediate (viii) and that in the presence of a nucleophilic solvent the adduct (ix) was formed (scheme III). Model studies showed the reaction to be both general and high-yielding. Scheme III : Novel quinone methide methodology. (For image refer to pdf).
An outstanding international scientific event in the field of metathesis chemistry, the NATO ASI "Green Metathesis Chemistry: Great Challenges in Synthesis, Catalysis and Nanotechnology" has been recently organized in Bucharest, Romania (July 21- August 2, 2008). Numerous renowned scientists, young researchers and students, convened for two weeks to present and debate on the newest trends in alkene metathesis and identify future perspectives in this fascinating area of organic, organometallic, catalysis and polymer chemistry with foreseen important applications in materials science and technology. Following the fruitful practice of NATO Advanced Study Institutes, selected contributions covering plenary lectures, short communications and posters have been compiled in this special volume dedicated to this successful convention on green metathesis chemistry. General interest was primarily focused on relevant "green chemistry" features related to all types of metathesis reactions (RCM, CM, enyne metathesis, ADMET and ROMP). Diverse opportunities for green and sustainable technologies and industrial procedures based on metahesis have been identified. Largely exemplified was the utility of this broadly applicable strategy in organic synthesis, for accessing natural products and pharmaceuticals, and also its ability to fit in the manufacture of smart and nanostructured materials, self-assemblies with nanoscale morphologies, macromolecular engineering.