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11	Synthesis of Frondosin B Analogs via Rhodium Catalyzed Carbonyl Ylide Cycloaddition Bougher, John H., III 24 August 2015 (has links) No description available. Organic Chemistry Frondosin B Cycloaddition Carbonyl Ylide Rhodium Catalyzed Azomethine Ylide Zoanthamine Himalayamine Ribasine
12	Seven- and Eight-Membered Ether Formation via Sulfonium Ylide Rearrangement Processes and Application in an Approach to (+)-Laurencin Cao, Liya 06 1900 (has links) Given the large number of biologically active natural products containing medium-sized ether motifs, many organic chemists have shown great interest for developing new methodologies to access these structures. In particular, numerous synthetic methodologies for the construction of seven-membered and eight-membered ethers have been developed by research groups around the world. Recent advances in the synthesis of seven-membered and eight-membered ethers will be reviewed in chapter one. This chapter will cover some of the more notable publications from the last five years (from 2005 to 2009). In chapter two, the development of ring expansion reactions via [1,2]-shift rearrangements of thioacetal-derived sulfonium ylides will be described. A variety of functionalized diazoketones and diazoketoesters were made from commercially available starting materials. Sulfur-bridged seven-membered and eight-membered ethers were constructed upon treatment of these diazo precursors with suitable metal catalysts. It was found that Rh2(OAc)4 was a better catalyst for diazoketones, while Cu(hfacac)2 proved to be more effective for diazoketoesters. This methodology provides a convenient route to the seven- and eight-membered ethers in relatively few steps. In chapter three, the methodology for construction of sulfur-bridged ethers was employed as the key step in the attempted formal synthesis of (+)-laurencin. In this approach, the relative and absolute stereochemistry was established by a highly enantioselective and diastereoselective allylboration, a facially selective Michael addition, and a thermodynamically controlled acetal formation. The eight-membered sulfur-bridged ether was efficiently constructed using our [1,2]-shift reaction of a sulfonium ylide in toluene at 100 oC in the presence of Cu(hfacac)2. The following desulfurization and decarboxylation was effective at affording an advanced intermediate in this synthesis. The chemistry demonstrated in this chapter outlines a promising strategy for the formal synthesis of (+)-laurencin. sulfonium ylide 7- and 8-membered ether laurencin rearrangement synthesis
13	Structural Studies of Thioredoxin S-nitrosation and Detection of Protein S-nitrosothiols by Phosphine Derivatization The, Juliana January 2013 (has links) S-nitrosylation (or S-nitrosation) has emerged as an important pathway of non-classical nitric oxide signaling. This post-translational modification involves the transfer of a nitroso group onto a cysteine residue and has been shown to regulate protein function. However, very little is known about the mechanism and structure-dependent factors of the modification. Understanding of S-nitrosothiol chemistry has lagged behind that for the classical nitric oxide signaling pathway due to challenges and limitations of current detection methods of S-nitrosothiols. The S-N bond is typically labile and indirect detection by traditional biotin switch method has low sensitivity and is prone to false positives. In this work, I have explored phosphine derivatization as a new direct approach to labeling protein S-nitrosothiols. Syntheses of aza-ylide derivatives of small organic S-nitrosothiols were successful and the termolecularity of the reaction was overcome by using a bisphosphine. Similarly, S-nitrosated cysteines of thioredoxin were successfully derivatized with the phosphine TCEP and identified by tandem mass spectrometry of the digested protein. Surprisingly, derivatization of S-nitrosoglutathione was found to be unsuccessful and ¹⁸O-labeling of the reaction indicated hydrolysis of the aza-ylide product. We hypothesize that solvent effects are the source of this discrepancy. In addition, x-ray crystallography studies were undertaken to investigate structural rearrangement of a thioredoxin helix to expose residue Cys 62 to S-nitrosation. A new structure of thioredoxin Q63A/C69S/C73S mutant was found to exhibit a highly dynamic N-terminal loop surrounding the pocket of Cys 62 which could have an effect on S-nitrosation of this residue. phosphine derivatization S-nitrosation S-nitrosylation thioredoxin Chemistry aza ylide
14	Seven- and Eight-Membered Ether Formation via Sulfonium Ylide Rearrangement Processes and Application in an Approach to (+)-Laurencin Cao, Liya Unknown Date No description available. sulfonium ylide 7- and 8-membered ether laurencin rearrangement synthesis
15	Nucleophile Reaktivität von Wittig-Yliden, phosphorylstabilisierten Carbanionen und anorganischen Anionen Loos, Robert. Unknown Date (has links) (PDF) Universiẗat, Diss., 2003--München.
16	DEVELOPMENT OF NOVEL SYNTHETIC ROUTES TO THE EPOXYKETOOCTADECANOIC ACIDS (EKODES) AND THEIR BIOLOGICAL EVALUATION AS ACTIVATORS OF THE PPAR FAMILY OF NUCLEAR RECEPTORS Eskandari, Roozbeh 27 January 2016 (has links) No description available. Chemistry
17	Stereoselective Synthesis of Amino Alcohols : Applications to Natural Product Synthesis Torssell, Staffan January 2007 (has links) This thesis is divided into four separate parts with amino alcohols as the common feature. The first part of the thesis describes the development of an efficient three-component approach to the synthesis of α-hydroxy-β-amino esters. Utilizing a highly diastereoselective Rh(II)-catalyzed 1,3-dipolar cycloaddition of carbonyl ylides to various aldimines, syn-α-hydroxy-β-amino esters are formed in high yields and excellent diastereoselectivities. An asymmetric version was also developed by employing chiral α-methylbenzyl imines as dipolarophiles yielding enantiomerically pure syn-α-hydroxy-β-amino esters. This methodology was also applied on a short asymmetric synthesis of the paclitaxel side-chain as well as in an asymmetric synthetic approach towards the proteasome inhibitor omuralide. Furthermore, the use of chiral Rh(II) carboxylates furnishes the syn-α-hydroxy-β-amino esters in moderate enantioselectivity (er up to 82:18), which indicates that the reaction proceeds via a metal-associated carbonyl ylide. The second part describes the development of a 1,3-dipolar cycloaddition reaction of azomethine ylides to aldehydes for the synthesis of α-amino-β-hydroxy esters. Different methods for the generation of the ylides, including Vedejs’ oxazole methology and an Ag(I)/phosphine-catalyzed approach have been evaluated. The best results were obtained with the Ag(I)/phosphine approach, which yielded the desired α-amino-β-hydroxy ester in 68% yield and 3.4:1 syn:anti-selectivity. The last two parts deals with the total synthesis of the amino alcohol-containing natural products D-erythro-sphingosine and (−)-stemoamide. The key transformation in the sphingosine synthesis is a cross-metathesis reaction for the assembly of the polar head group and the aliphatic chain. In the stemoamide synthesis, the key feature is an iodoboration/Negishi/RCM-sequence for the construction of the β,γ-unsaturated azepine core of stemoamide followed by a stereoselective bromolactonization/1,4-reduction strategy for the installation of the requisite C8-C9 trans-stereochemistry. / QC 20100820 Amino alcohol asymmetric 1.3-dipolar cycloaddition azomethine ylide carbenoid carbonyl ylide cross-metathesis omuralide oxazolidine rhodium sphingosine stemoamide stereoselective synthesis total synthesis. Organic chemistry Organisk kemi
18	Synthèse énantiosélective d'alpha-iodophosphonates et étude de leur réactivité Murphy, Philippe January 2007 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. Ylure Diazométhylphosphonate Bis(oxazoline) Iodure allylique Réarrangement Aminophosphonate Ylide Iodophosphonate Allylic Iodide Diazomethylphosphonate Bis(oxazoline) Aminophosphonate
19	Coordination Chemistry of Multidentate Pyrrolylaldiminate Ligands Lee, Pei-ying 21 July 2004 (has links) none Zirconium phosphorous ylide. imine Schiff Base pyrrole amide Magnesium Manganse chelate Alumium Nickel Hafnium
20	Studies On The Reaction Of Acyl Phosphonates With Aldehydes In The Presence Of Proline Yalcinkaya, Hatice 01 February 2009 (has links) (PDF) Acyl phosphonates are interesting precursors for the synthesis of biologically active compounds. In the first part, the acyl phosphonates are synthesized starting from the corresponding acyl chloride. The acyl chlorides are converted into acyl phosphonates by using trialkylphosphites. The reaction of acyl phosphonates with aldehydes in the presence of proline furnished not the suggested aldol products via proline catalyzed aldol reaction but bicyclic products via one pot tricomponent 1,3-dipolar cycloaddition reaction. The formation of the bicyclic compound was suggested as followed / The formation of iminium salt of proline with aldehyde followed by decarboxylation furnished azomethine. The 1,3-dipolar cycloaddition of the formed azomethine with carbonyl group of acyl phosphonate afforded substituted hexahydro pyrrolo oxazole structures. 1,3-Dipolar cycloaddition forms the basis of the most preparatively useful procedures for the synthesis of five-membered heterocycles. One example is the 1,3-dipolar cycloaddition of azomethine ylides (from imines) and alkenes, which allows the stereoselective synthesis of pyrrolidines or proline derivatives. QD Organic Chemistry 241-441

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