Browsing by Subject "Thioester"
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Item Open Access Direct Carbon--Carbon Bond Formation Through Reductive Soft-Enolization of α-Halothioesters and The Total Synthesis of (+)-Mefloquine(2011) Sauer, Scott J.The direct addition of enolizable aldehydes and sulfonyl imines to α-halo thioesters to produce β-hydroxy/amino thioesters enabled by reductive soft enolization is reported. The transformation is operationally simple and efficient and has the unusual feature of giving high syn-selectivity, which is the opposite of that produced for the aldol addition with (thio)esters under conventional conditions. This method is tolerant to aldehydes and imines that not only contain acidic α-protons, but also towards electrophiles containing other acidic protons and base-sensitive functional groups. Moreover, excellent diastereoselectivity is achieved when a chiral non-racemic α-hydroxy aldehyde derivative is used. Using MgI2 and Ph3P, this method gives a wide range of aldol and Mannich products in good yields with high syn-diastereoselectivity. The products obtained from the reductive aldol and Mannich reactions are synthetically important intermediates in both polyketide and β-lactam synthesis, respectively, and can be readily derivatized to form many carbonyl derivatives through known manipulation of the thioester moiety.
Also, herein the asymmetric synthesis of (+)-mefloquine, a potent anti-malarial compound, is described. The synthesis is based on a key enantioselective Darzens reaction between a chiral α-chloro-N-amino cyclic carbamate (ACC) hydrazone and a quinoline-based aldehyde. This is a novel methodology developed by our lab, which gives a highly enantioenriched epoxide that can be further functionalized to give both enantiomers of mefloquine.
Item Open Access Direct Carbon-Carbon Bond Formation via Base Mediated and Reductive Soft Enolization of Thioesters, the First Asymmetric Total Synthesis of (+)- and (-)-Clusianone, and Progress Toward the Asymmetric Total Synthesis of Brasilicardin A(2012) Garnsey, Michelle ReneeThree methodology studies and two total synthesis endeavors are presented. First, a study of Lewis acid and hydrogen bond mediated soft enolization of thioesters and their addition to imines in the Mannich reaction is reported. MgBr2*OEt2 and Hunig's base are used in concert with bulky thioesters and aromatic aldehydes to generate syn-b-aminothioesters with moderate diastereoselectivity and yield. Next, a biomimetic organocatalytic Mannich reaction is presented using a chiral cinchona alkaloid to effect the enantioselective addition of an imines to thioesters with high yield and diastereoselectivity and enantioselectivities up to 88:12.
The direct addition of enolizable aldehydes to a-iodo thioesters to produce b-hydroxy thioesters enabled by reductive soft enolization is reported. The transformation is operationally simple and efficient and has the unusual feature of giving high syn-selectivity, which is the opposite of that produced in the aldol addition with (thio)esters under conventional conditions. This method is tolerant to aldehydes and imines that contain acidic a-protons, as well as electrophiles containing other acidic protons and base-sensitive functional groups.
The development of a strategy for the asymmetric synthesis of a large portion of the polycyclic polyprenylated acyl phloroglucinols via N-amino cyclic carbamate hydrazones, and its application to the first asymmetric total synthesis of both (+)- and (-)-clusianone is discussed. The clusianones are synthesized with an er of 99:1 and their anti-HIV activity is found to be 1.53 and 1.13 M, respectively. A library of clusianone-like compounds is synthesized and their biological activity has been probed.
Finally, efforts towards the total synthesis of brasilicardin A are reported. An appropriate model system was synthesized, and conditions were established using a pinene-based aldol reaction to synthesize the b-methoxy-a-amino ester side chain of the molecule. Next, efforts toward the synthesis of the anti-syn-anti- perhydro-phenanthrene core are discussed.
Item Open Access Part I: The Development of the Organocatalytic Asymmetric Mannich and Sulfenylation Reactions Part II: Progress Towards the Synthesis of Lagunamide A(2012) Kohler, Mark ChristopherThis dissertation deals with the development of asymmetric carbon-carbon and carbon-heteroatom bond-forming reactions and the synthesis of Lagunamide A. Asymmetric C-C and C-X bond formations are critical transformations in synthetic chemistry. While a variety of approaches are available to effect such reactions, organocatalytic methods have attracted considerable recent attention. Common themes have emerged from these studies with regard to both the mode of asymmetric catalysis and the nature of the substrates they are applied to. We have been investigating alternatives to these themes for both carbon-carbon and carbon-heteroatom bond formation. We will describe some of our efforts to expand the parameters of asymmetric organocatalysis, which include the development a novel biomimetic proximity-assisted soft enolization approach to the asymmetric Mannich reaction, as well as the use of nitrosoalkenes for the asymmetric a-sulfenylation of ketones and aldehydes. Lagunamide A was recently isolated from Palau Hantu Besar, Singapore and has shown strong antimalarial activity and cytotoxicity against leukemia. The work presented describes the progress towards the first asymmetric total synthesis of this natural product.