Chiral compounds Evans aldol reaction

To date, two total syntheses of myriaporone 4 are known. This chapter is based on the total synthesis of myriaporone 4 published by Taylor et al. in 2004. The synthesis of a chiral precursor, which has also been employed for the total synthesis of related compounds, was published by the same group in 1998. The linear total synthesis starts with an enantiomerically pure molecule from the chiral pool that delivers the stereogenic center at C-12 of the final product, employs Evans aldol reactions as key steps for stereoselective chain elongations and additionally includes reduction/oxidation steps as well as protecting group chemistry. 

The aldol reaction is an important carbon-carbon bond formation reaction. The general concept of the reaction involves the nucleophilic addition of a ketone enolate to an aldehyde to form a P-hydroxy ketone, or aldol , a structural unit found in many naturally occurring molecules and pharmaceuticals. Since the aldol addition reaction creates two new stereocenters, up to four stereoisomers may result. The Evans aldol reaction performs a diasteroselective aldol transformation using an Evans s acyl oxazolidinone (also known as Evans chiral auxiliary), a chiral carbonyl compound that creates a temporary chiral enolate for the aldol addition. Upon subsequent removal of the auxiliary, the desired aldol stereoisomer is revealed. ... 

We now tum our attention to the C21-C28 fragment 158. Our retrosynthetic analysis of 158 (see Scheme 42) identifies an expedient synthetic pathway that features the union of two chiral pool derived building blocks (161+162) through an Evans asymmetric aldol reaction. Aldehyde 162, the projected electrophile for the aldol reaction, can be crafted in enantiomerically pure form from commercially available 1,3,4,6-di-O-benzylidene-D-mannitol (183) (see Scheme 45). As anticipated, the two free hydroxyls in the latter substance are methylated smoothly upon exposure to several equivalents each of sodium hydride and methyl iodide. Tetraol 184 can then be revealed after hydrogenolysis of both benzylidene acetals. With four free hydroxyl groups, compound 184 could conceivably present differentiation problems nevertheless, it is possible to selectively protect the two primary hydroxyl groups in 184 in... 

Recently, a conceptually different synthesis of MeBmt using an asymmetric glycine aldol reaction was reported by Evans and Weber [29]. The key step consists in the stereochemically controlled condensation of the chiral glycine enolate synthon (23) with the (R)-aldehyde (24) mediated by stannous triflate (tin salt of trifluoromethanesulphonic acid). The desired syn-aldol adduct (25) was isolated in form of the heterocyclic compound (26). The sense of asymmetric induction in the aldol reaction was established by conversion of (26) over three steps into uniform MeBmt (3). 

The Evans-aldol method using a boron enolate derived from chiral iV-acyloxazolidinone reacted with aldehydes to give syn-aldols via attack exclusively on the re face of the double bond of the enolate (Equation (177)). Unexpected and unusual si face attack was resulted in the reaction with fluorine-containing carbonyl compounds such as trifluoro acetaldehyde (Equation (178)).680 681... 

The utility of thiazolidinethione chiral auxiliaries in asymmetric aldol reactions is amply demonstrated in a recent enantioselective synthesis of apoptolidinone. This synthesis features three thiazolidinethione propionate aldol reactions for controlling the configuration of 6 of 12 stereogenio centers <05JA13810>. For example, addition of aldehyde 146 to the enolate solution of A -propionyl thiazolidinethione 145 produces aldol product 147 with excellent selectivity (>98 2) for the Evans syn isomer. Compound 145 also undergoes diastereoselective aldol addition with bisaryl aldehyde 148 to give the Evans syn product 149, which is converted to eupomatilone-6 in 6 steps <05JOC9658>. 

Valinol 27 and phenylalaninol 29 are used to make the Evans chiral auxiliaries used in asymmetric aldol reactions (chapter 27) and Evans prefers reduction with borane itself as its complex with Me2S. The phenylalanine based auxiliary 30 is generally preferred as the compounds are more likely to be crystalline and can easily be made11 on a 150 g scale. 

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