Synthetic studies of N-diphenylphosphinyl aziridines

Cantrill, Alexander A.

January 1996

No description available.

547

Amine; Chiral auxiliary

Development of dynamic resolutions for asymmetric synthesis

Jenkins, Kerry

January 1998

No description available.

547

Imidazolidinone; Chiral auxiliary

Asymmetric #alpha#-amino acid synthesis

Parr, Nigel

January 2000

No description available.

547

Boron aldol; Chiral auxiliary

Asymmetric synthesis using acyl-nitroso cycloadditions : applications to natural product synthesis

Pepper, Adrian Gordon

January 2000

No description available.

547

New stereoselective enolate chemistry using atropisomeric anilides

Hughes, Adam D.

January 1999

No description available.

547

SYNTHETIC EFFORTS TOWARD FUMONISIN via AMINO ACID SCHIFF BASE METHODOLOGY

Kim, Shang U

January 2009

Synthetic efforts toward fumonisin analog were described. These are accomplished via amino acid Schiff base methodology. These efforts can be divided three major phases. First, tandem reductive alkylation with DIBAL/TRIBAL and different types of organo-lithium or Grignard nucleophiles provided threo-amino alcohol with excellent stereoselecitivites (2-27:1). The reductive alkylation utilized most hydrocarbon nucleophiles, e.g. alkyl-, vinyl-, alkenyl-, phenyl-, and dienyl-, and afforded high selectivites unless donor solvents (e.g. THF and Et2O) were used. Second, syntheses of the protected threo-γ-amino-β-hydroxy aldehydes and their stereoselectivities were introduced. The reductive alkylated threo-amino allyl alcohol was transformed via Brown’s hydroboration/oxidation protocol with 9-BBN, followed by TEMPO oxidation to give the resultant aldehydes in reasonable yields. Then, TBDPS and Schiff base protected aldehyde was coupled with phenyl- and decyl Grignard reagents to obtain predominant 3,5-anti-diols (ca. 80:20 anti:syn), characterized by ¹³C NMR analysis of Rychnovsky’s 1,3-acetonide groups. Products can be useful analogues for fumonisin and 5-hydroxy-sphingosine due to their structural similarity. Third stage involved the synthesis of C₁₁-C₂₀ fragment analog of fumonisin. Chiral auxiliaries (e.g. Evans and Myers) were administrated for stereoselective methylation, Sharpless asymmetric dihydroxylation in the presence of (DHQ)2PHAL catalyst was performed to form 1,2- syn-diols, and the manipulation of protection/deprotection and Finklestein reaction furnished C₁₁-C₂₀ fragment analog of fumonisin.

chiral auxiliary

dihydroxylation

Fumonisin

reductive alkylation

sphingolipids

Asymmetric Meisenheimer rearrangements

Buston, Jonathan Edward Hugh

January 1996

No description available.

547

Tools for efficient asymmetric synthesis: design, synthesis and application of fluorous oxazolidinone chiral auxiliaries

Hein, Jason Ellis

06 January 2006

A new class of oxazolidinone chiral auxiliary has been synthesized from various α-amino acids, incorporating a perfluoroalkyl functional chain as a soluble support. This feature allows the chiral auxiliaries to be employed under standard solution-phase reaction conditions, and rapidly purified from crude mixtures using fluorous solid phase extraction (FSPE). Our investigation of these new materials has been divided into two main sections. To obtain the chiral auxiliaries in multi-gram quantities a synthetic protocol was designed, where efficiency and reproducibility were the primary objectives. Meeting these goals required an extensive study of the reactivity of perfluoroalkyl nucleophiles. This study identified a versatile and scalable protocol for the perfluoroalkylation of the required amino acid starting materials. These results have allowed us to design a general, five-step synthetic pathway to create the fluorous chiral auxiliaries quickly and effectively. The new auxiliaries were then applied in several model reactions, specifically chosen to examine the reactivity and behavior of these compounds. In particular, the auxiliaries were tested for their stereoselectivity, recyclability, and ease of purification, in a series of Aldol reactions, 1,3 dipolar cycloadditions, and radical conjugate additions. This set of model reactions, combined with the facile and efficient synthesis clearly demonstrates that these new chiral auxiliaries are useful alternatives to the non-fluorous oxazolidinone chiral auxiliaries currently employed in stoichiometric asymmetric syntheses. / February 2006

Fluorous chiral auxiliary

asymmetric synthesis

organic chemistry

oxazolidinones

aldol reactions

On the Development of Pseudoephenamine and Its Applications in Asymmetric Synthesis

Mellem, Kevin T

06 June 2014

Pseudoephedrine is well established as a chiral auxiliary in the alkylation of amide enolates to form tertiary and quaternary carbon stereocenters. However, due to its facile transformation into the illegal narcotic methamphetamine, pseudoephedrine is either illegal or highly regulated in many countries, which limits its use in academic and industrial settings. To address this issue, pseudoephenamine has been developed as a replacement for pseudoephedrine in organic synthesis. This new auxiliary suffers no regulatory issues and exhibits several practical advantages over pseudoephedrine, including the high diastereoselectivities observed in alkylation reactions forming quaternary carbon stereocenters, the propensity for pseudoephenamine amides to be free-flowing crystalline solids, and the sharp, well-defined peaks that typically compose the 1H NMR spectra of these amides. / Chemistry and Chemical Biology

Organic chemistry

Alkylation

Amino Acid

Chiral Auxiliary

Pseudoephedrine

Pseudoephenamine

Synthesis

Tools for efficient asymmetric synthesis: design, synthesis and application of fluorous oxazolidinone chiral auxiliaries

Hein, Jason Ellis

06 January 2006

A new class of oxazolidinone chiral auxiliary has been synthesized from various α-amino acids, incorporating a perfluoroalkyl functional chain as a soluble support. This feature allows the chiral auxiliaries to be employed under standard solution-phase reaction conditions, and rapidly purified from crude mixtures using fluorous solid phase extraction (FSPE). Our investigation of these new materials has been divided into two main sections. To obtain the chiral auxiliaries in multi-gram quantities a synthetic protocol was designed, where efficiency and reproducibility were the primary objectives. Meeting these goals required an extensive study of the reactivity of perfluoroalkyl nucleophiles. This study identified a versatile and scalable protocol for the perfluoroalkylation of the required amino acid starting materials. These results have allowed us to design a general, five-step synthetic pathway to create the fluorous chiral auxiliaries quickly and effectively. The new auxiliaries were then applied in several model reactions, specifically chosen to examine the reactivity and behavior of these compounds. In particular, the auxiliaries were tested for their stereoselectivity, recyclability, and ease of purification, in a series of Aldol reactions, 1,3 dipolar cycloadditions, and radical conjugate additions. This set of model reactions, combined with the facile and efficient synthesis clearly demonstrates that these new chiral auxiliaries are useful alternatives to the non-fluorous oxazolidinone chiral auxiliaries currently employed in stoichiometric asymmetric syntheses.

Fluorous chiral auxiliary

asymmetric synthesis

organic chemistry

oxazolidinones

aldol reactions