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31	Dearomatising addition of organolithiums to 2-aryloxazolines : a route to amino-carbasugar analogues Clayton, James January 2011 (has links) 2-Aryl-4,5-anti-diphenyloxazolines undergo nucleophilic dearomatising addition to the 2-aryl group when treated with secondary organolithiums at -78 °C in the presence of the deaggregating co-solvent DMPU. Quenching the reaction with methyl iodide gives a highly substituted conjugated diene. Quenching the reaction with a proton source gives a substituted unconjugated 1,4-diene. The stereochemistry of the anti-diphenyl oxazoline controls the diastereoselectivity of the nucleophilic addition; only one diastereoisomeric product is observed. Importantly these conditions allow the dearomatisation of phenyl rings; this moiety has proven resistant to nucleophilic dearomatisation in all but the harshest conditions. This thesis presents the application of this dearomatising reaction. First the scope of this method was explored towards the dearomatisation of phenyl rings with fluorine substituents, as precursors for fluorinated carbasugar analogues. Secondly amino-carbasugar analogues were synthesised. The dearomatisation of a 4-methoxy phenyl ring was used to construct a dearomatised carbocyclic skeleton, which was functionalised through a series of reactions to give fully substituted cyclohexanoid amino-carbasugar analogues. These amino carbasugars were synthesised without the use of protecting groups, in order to do this a number of chemoselective conditions were studied and chemoselective reactions were developed. 547.6
32	Solution Studies of the Structures and Stability of Mixed Lithium Alkoxide/Alkvllithium Aggregates DeLong, George T. (George Thomas) 12 1900 (has links) New one- and two-dimensional NMR techniques were used to elucidate the solution structures of these complex mixtures. The system, lithium tert-butoxide/tert-butyllithium, was studied as a model system with O/Li ratios varying from 0/1 to 1/1. It was found that at low O/Li ratios, a single mixed tetrameric aggregate was formed. At higher O/Li ratios, mixed hexameric species were formed. Two other systems, lithium isopropoxide/iso-propyllithium and lithium n-propoxide/n-propyllithium were also studied at low O/Li ratios. Organolithium compounds. solution study mixed lithium alkoxide
33	Part I, reaction of quinone imine monoketals with organolithium reagents. ; Part II, preparation of quinone imide monoketals by anodic oxidation of anilides. ; Part III, construction of the erythrina alkaloids skeleton / Chou, Chun-Tzer January 1987 (has links) No description available. Chemistry Quinone Imines Organolithium compounds Erythrina Alkaloids
34	Part I. Transition metal complex promoted rearrangements ; Part II. Organolithium chemistry. Atkins, Thomas Joseph January 1972 (has links) No description available. Chemistry Transition metal compounds Organolithium compounds
35	New transformations of azacycles Mortimer, Claire January 2015 (has links) The work presented in this thesis involves new transformations of azacycles, focusing on the introduction of functionality α-to N. α-C-H functionalisation on an azetidine has been a long-standing challenge, with N-protecting/activating groups that work well in the higher and lower azacyclic systems not viable. A recent breakthrough in the Hodgson group showed the rarely used N-thiopivaloyl group was effective for α-deprotonationâ electrophile trapping on azetidines, but was not without limitations concerning harsh removal conditions and scope for further substitutions. This thesis describes efforts to overcome these issues by development of a new protecting/activating group for N, t-butoxythiocarbonyl (Botc). 547
36	Solution Studies of ⁶Li Enriched Organolithium Compounds Using New NMR Techniques Ellington, Donald H. (Donald Howard) 05 1900 (has links) With the values of 6Li T1 measured and the literature values of J(13C-6Li) for these compounds, three new 13C NMR techniques are developed for the analysis of organolithium compounds. Modifications to the spectrometer are discussed, as well as calibrations of the 6Li decoupler channel needed to set up these new experiments. The theoretical development of each technique is presented, as well as data from their verification, using organolithium compounds of known structure. Once qualified, the new experimental techniques are used to analyze a series of alkyllithium / lithium alkoxide mixed aggregates in solution, where structures and values of J(13C-6Li) may not be known. The combination of Ti relaxation measurements and 13C{1H, 6Li} triple resonance techniques serves as a means of determining the structure of organolithium aggregates in solution. organolithium compounds magnetic resonance imaging chemistry Organolithium compounds -- Analysis. Magnetic resonance imaging.
37	A Carbon-13 and Lithium-6 NMR Study of Alkyllithium Compounds Jensen, Randy M. 12 1900 (has links) A variable temperature 13C and 6Li NMR study has been conducted for 6Li-enriched ethyl-, n-propyl-, isopropyl-, n-butyl-, isobutyl-, t-butyl--, isopentyl-, 2-ethylbutyl-, and n-hexyllithium in cyclopentane. Significant differences in the 13C NMR parameters are observed as a function of the alkyl group and temperature. These changes are compared to the 6Li spectra and explained in terms of the aggregates present. 13C-6Li coupling is readily observed in both the 13 6 C and Li spectra of compounds which contain branching at either the alpha or beta carbons of the alkyl group. This coupling has been used to identify the aggregates present in solution and to identify the fluxional behavior of these aggregates. carbon-13 Carbon. Organolithium compounds. alkyl group compounds
38	Synthesis of Cortistatin Alkaloids and a Versatile Synthesis of Isoquinolines Si, Chong 10 August 2012 (has links) The cortistatins are a recently identified class of marine natural products that were found to exhibit potent and selective inhibition of human umbilical vein endothelial cells (HUVECs), making them promising leads for the development of anti-angiogenic drugs. In our synthesis, we envisioned that natural cortistatins and unnatural analogs could be prepared by late-stage introduction of isoquinolines to 17-keto precursors, and that these differentially substituted precursors could all be derived from a common key intermediate 112. We developed a robust synthetic route to prepare gram quantities of key intermediate 112 starting from readily available benzylzinc reagent 116 and enol triflate 117. Key intermediate 112 was next converted to cortistatin precursors 108, 109, 110, and 111 in three to eight steps, representing each of the four natural cortistatin ABC-ring substitution patterns. Subsequently, a generally applicable method was developed to introduce the isoquinoline moiety. After complexation to N,N,N',N'-tetramethylethylenediamine (TMEDA), 7-lithio-isoquinoline added to 17-keto precursors to provide the corresponding 1,2-addition products; the resulting tertiary alcohols underwent radical deoxygenation via their trifluoroacetates to afford the desired (17S)-products. This organolithium-addition-deoxygenation sequence provided cortistatins A (1, on a 20-mg scale), J (9), K (10), and L (11) in good overall yields. We also synthesized cortistatin primary amines (176 and 186) and used them to prepare several cortistatin based affinity reagents. By employing these reagents in pull-down experiments, we identified a 55-kD membrane kinase as a putative protein target of cortistatins. We wanted to prepare cortistatin analogs with isoquinoline modifications due to the importance of this ring for the biological activity of cortistatins. This led us to develop a novel and versatile synthesis of substituted isoquinolines. In our method, lithiated o-tolualdehyde tert-butylimines were condensed with different nitriles to generate eneamido anion intermediates, which were trapped in situ with various electrophiles at the C4-position, affording a wide range of substituted isoquinolines. Further diversification was achieved by modification of the work-up conditions and by subsequent transformations. / Chemistry and Chemical Biology angiogenesis cortistatin isoquinoline organolithium addition radical deoxygenation organic chemistry chemistry
39	A bridgehead organolithium reagent, the Retro-Nazarov reaction, and 4+3 cycloadditions with a nicotinic acid derivative / Kirchhoefer, Patrick L., January 2004 (has links) Thesis (Ph.D.)--University of Missouri-Columbia, 2004. / Typescript. Vita. Includes bibliographical references (leaves 263-272). Also available on the Internet.
40	Über Eliminierungen mit Organolithiumverbindungen und Lithium- dialkylamiden zu Arinen und Acetylenen Herbig, Klaus, January 1960 (has links) Thesis (doctoral)--Ludwig-Maximilians-Universität München, 1960. / Vita. Includes bibliographical references (p. 79-80).

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