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Catalytic antibodies aldol reactions

Reymond, J.L. and Chen, Y.W. (1995) Catalytic, enantioselective aldol reaction using antibodies against a quaternary ammonium ion with a primary amine cofactor. Tetrahedron Letters, 36, 2575-2578. [Pg.17]

On the basis of encouraging work in the development of L-proline-DMSO and L-proline-ionic liquid systems for practical asymmetric aldol reactions, an aldolase antibody 38C2 was evaluated in the ionic liquid [BMIM]PF6 as a reusable aldolase-ionic liquid catalytic system for the aldol synthesis of oc-chloro- 3-hydroxy compounds (288). The biocatalytic process was followed by chemical catalysis using Et3N in the ionic liquid [BMIM]TfO at room temperature, which transformed the oc-chloro-(3-hydroxy compounds to the optically active (70% ee) oc, (3-epoxy carbonyl compounds. The aldolase antibody 38C2-ionic liquid system was also shown to be reusable for Michael additions and the reaction of fluoromethylated imines. [Pg.228]

Antibody Catalysis. Recent advances in biocatalysis have led to the generation of catalytic antibodies exhibiting aldolase activity by Lemer and Barbas. The antibody-catalyzed aldol addition reactions display remarkable enantioselectivity and substrate scope [18]. The requisite antibodies were produced through the process of reactive immunization wherein antibodies were raised against a [Tdiketone hapten. During the selection process, the presence of a suitably oriented lysine leads to the condensation of the -amine with the hapten. The formation of enaminone at the active site results in a molecular imprint that leads to the production of antibodies that function as aldol catalysts via a lysine-dependent class I aldolase mechanism (Eq. 8B2.12). [Pg.523]

Examples of highly enantio- and regio-selective aldol condensation reactions have featured in a review of organic synthesis and catalytic antibodies.188... [Pg.355]

Aldol reactions enjoy great recognition as a useful tool for the synthesis of building blocks in natural product and drug synthesis [42, 182]. The stereochemistry of the stereogenic centers formed can be controlled by various means. Besides chiral auxiliaries, catalytic methods with chiral Lewis acids, organocatalysts, or catalytic antibodies were established for stereochemical control [183-187]. [Pg.29]

Modern Aldol Reactions contains several pertinent reviews (i) catalytic enantiose-lective aldols with chiral Lewis bases 97 (ii) the aldol-Tishchenko reaction 98 (iii) titanium—enolate aldols 99 (iv) crossed aldols mediated by boron and silicon enolates 100 (v) amine-catalysed aldols 101 and (vi) aldols catalysed by antibodies.102... [Pg.12]

During the evolution of a natural enzyme, selection is not solely dependent on rate improvement. Therefore, there is no requirement for enzymes to be kinetically perfect, and it should be possible to develop catalytic antibodies that are faster than their natural counterparts. The designed substrate 52 has a rate of 1.4 s-1 with 84G3-catalyzed retro-aldol reaction (Zhong et al., 1999). Its kinetic parameters hold the current world record for antibody catalysis (KM = 4.2 /ulM, = 2 X... [Pg.349]

Scheme 5.64. Phosphinate transition-state analogue hapten. Henry type-retro-aldol reaction catalyzed by catalytic antibody. Scheme 5.64. Phosphinate transition-state analogue hapten. Henry type-retro-aldol reaction catalyzed by catalytic antibody.
Scheme 5.65. p-di ketone chemical trap hapten. Stereospecific aldol reaction catalyzed by the elicited catalytic antibodies Ab38C2 and Ab33F12. [Pg.330]

Prior to the determination of the aldolase mechanism and the development of catalytic antibodies for the aldol reaction, Hajos and Parrish and independently Wiechert et al. discovered that (5)-proline catalyzes the intramolecular aldol reaction of cyclic triketones (Scheme 6.7). This is not only a catalytic effect the reaction proceeds with high yields and large enantiomeric excess. [Pg.405]

Keywords Catalytic antibody. Hapten, Enantiofacial, Enantioselective, Diels-Alder cycloaddition, Cationic reactions, Aldol condensation. Disfavored cyclization... [Pg.1315]

Catalytic antibodies have been used to resolve aldols by the retroaldol reaction to obtain 95-99% ee.54... [Pg.301]

Figure 14.1-36. Aldol reaction catalyzed by catalytic antibody 72D4, and a transition-state hapten. Figure 14.1-36. Aldol reaction catalyzed by catalytic antibody 72D4, and a transition-state hapten.
Fig. 3-7 Artificial catalytic antibody for cross-aldol reaction ... [Pg.36]

This review covers the catalytic literature on condensation reactions to form ketones, by various routes. The focus is on newer developments from the past 15 years, although some older references are included to put the new work in context. Decarboxylative condensations of carboxylic acids and aldehydes, multistep aldol transformations, and condensations based on other functional groups such as boronic acids are considered. The composition of successful catalysts and the important process considerations are discussed. The treatment excludes enantioselective aldehyde and ketone additions requiring stoichiometric amounts of enol silyl ethers (Mukaiyama reaction) or other silyl enolates, and aldol condensations catalyzed by enzymes (aldolases) or catalytic antibodies with aldolase activity. It also excludes condensations catalyzed at ambient conditions or below by aqueous base. Recent reviews on these topics are those of Machajewski and Wong, Shibasaki and Sasai, and Lawrence. " The enzymatic condensations produce mainly polyhydroxyketones. The Mukaiyama and similar reactions require a Lewis acid or Lewis base as catalyst, and the protecting silyl ether or other group must be subsequently removed. However, in some recent work the silane concentrations have been reduced to catalytic amounts (or even zero) this work is discussed. [Pg.293]


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See also in sourсe #XX -- [ Pg.111 , Pg.112 , Pg.113 , Pg.114 ]




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