Amino ethers aldol reaction

Ono and Kamimura have found a very simple method for the stereo-control of the Michael addition of thiols, selenols, or alcohols. The Michael addition of thiolate anions to nitroalkenes followed by protonation at -78 °C gives anti-(J-nitro sulfides (Eq. 4.8).11 This procedure can be extended to the preparation of a/jti-(3-nitro selenides (Eq. 4.9)12 and a/jti-(3-nitro ethers (Eq. 4.10).13 The addition products of benzyl alcohol are converted into P-amino alcohols with the retention of the configuration, which is a useful method for anri-P-amino alcohols. This is an alternative method of stereoselective nitro-aldol reactions (Section 3.3). The anti selectivity of these reactions is explained on the basis of stereoselective protonation to nitronate anion intermediates. The high stereoselectivity requires heteroatom substituents on the P-position of the nitro group. The computational calculation exhibits that the heteroatom covers one site of the plane of the nitronate anion.14... 

One of the early syntheses of orlistat (1) by Hoffmann-La Roche utilized the Mukaiyama aldol reaction as the key convergent step. Therefore, in the presence of TiCU, aldehyde 7 was condensed with ketene silyl acetal 8 containing a chiral auxiliary to assemble ester 9 as the major diastereomer in a 3 1 ratio. After removal of the amino alcohol chiral auxiliary via hydrolysis, the a-hydroxyl acid 10 was converted to P-lactone 11 through the intermediacy of the mixed anhydride. The benzyl ether on 11 was unmasked via hydrogenation and the (5)-7V-formylleucine side-chain was installed using the Mitsunobu conditions to fashion orlistat (1). 

Asymmetric induction in the aldol reaction of enolsilane and metal enolate nucleophiles with yS-substituted aldehydes gives rise to both excellent yields and good diastereoselectivities (equation 128)507. The best diastereoselectivity was obtained using a trimethylsilyl enolate in the presence of boron trifluoride-etherate (92 8 anti. syn). The key step in the synthesis of the N-terminal amino acid analogue of nikkomycin B and Bx (nucleoside peptide antibiotics) has been performed using this type of methodology508. 

The required aldehyde precursor 186 was obtained by a Sn(II)-catalyzed asymmetric aldol reaction [90]. It was then mixed in one pot with o-methoxy aniline 187 and enol ether 188 to afford the key /7-amino ketone 189 in a 2 1 diastereomeric ratio through a Mannich-type three-component reaction. This reaction was performed in an aqueous medium and the use of a surfactant such as dodecyl sulfate (DS) was essential. The diastereomeric mixture 189 was treated with HF and the... 

Hoveyda and coworkers reported that the silver complex generated from AgF2 and an amino acid-based ligand could be used for the asymmetric aldol reaction with silyl enol ethers and a-ketoesters (Table 9.11).23... 

Imines and their derivatives could be used in an analogous way to aldehydes, ketones, or their derivatives this subject has been reviewed [79]. A competition experiment between an aldimine and the corresponding aldehyde in the addition to an enol silyl ether under titanium catalysis revealed that the former is less reactive than the latter (Eq. 14) [80]. In other words, TiCU works as a selective aldehyde activator, enabling chemoselective aldol reaction in the presence of the corresponding imine. (A,0)-Acetals could be considered as the equivalent of imines, because they react with enol silyl ethers in the presence of a titanium salt to give /5-amino carbonyl compounds, as shown in Eqs (15) [81] and (16) [79,82]. 

The silatropic ene pathway, i.e. direct silyl transfer from an enol silyl ether to an aldehyde, might be a possible mechanism in the Mukaiyama aldol-type reaction. Indeed, ab initio calculations show the silatropic ene pathway, involving the cyclic (boat and chair) transition states for the BHs-promoted aldol reaction of the trihydro-silyl enol ether derived from acetaldehyde with formaldehyde, to be favored [94], We recently reported the possible intervention of a silatropic ene pathway in the asymmetric catalytic aldol-type reaction of silyl enol ethers of thioesters [95]. The chloro and amino compounds thus obtained are useful intermediates in the synthesis of carnitine and GABOB (Sch. 34) [96]. 

Aldol-type reactions. The highest anti selectivity is observed with BINAP complex of Pd(OTf)j in the aldol reaction of tin enolate of cyclohexanone. The condensation of silyl enol ethers with imines provides y-keto a-amino esters. ... 

Trost and coworkers developed a chiral zinc phenoxide for the asymmetric aldol reaction of acetophenone or hydroxyacetophenone with aldehydes (equations 62 and 63) . This method does not involve the prior activation of the carbonyls to silyl enol ethers as in the Mukaiyama aldol reactions. Shibasaki and coworkers employed titanium phenoxide derived from a phenoxy sugar for the asymmetric cyanosilylation of ketones (equation 64). 2-Hydroxy-2 -amino-l,l -binaphthyl was employed in the asymmetric carbonyl addition of diethylzinc , and a 2 -mercapto derivative in the asymmetric reduction of ketones and carbonyl allylation using allyltin ° . ... 

As shown in Scheme 8.2, chiral P-hydroxy-a-amino adds can be obtained by the Mukaiyama-type aldol reaction of aldehydes with glycine-derived enol silyl ethers using cinchona-based quaternary ammonium salts. In 2004, Castle and coworkers [9] found that dnchona-based quaternary ammonium salts such as 13 are also able to catalyze the dired aldol readion of aldehydes with the glydne donor 14 in the presence of a phosphazene base such as BTTP (t-butyliminotri(pyrrolidino)phos-... 

Aldol and imino-aldol reactions. A Yb complex prepared from YbfOTflj and a C -symmetric a,a -bistriflamidobibenzyl has been used in the Mukaiyama aldol reaction," resulting in moderate asymmetric induction. Imines are activated toward enol derivatives, such as ketene silyl ethers. iV-(a-aminoalkyl)benzotriazoles are suitable surrogates of imines. One-pot syntheses of p-amino esters and ketones can also be achieved. 

Enantiomerically pure boron-based Lewis acids have also been used successfully in catalytic aldol reactions. Corey s catalyst (7.10a) provides good enantioselectivity with ketone-derived silyl enol ethers, including compound (7.11). Other oxazaborolidine complexes (7.13) derived from a,a-disubstituted a-amino acids give particularly high enantioselectivity, especially with the disubstituted ketene... 

This reaction was first reported by Schollkopf in 1979. It is a synthesis of an unnatural nonproteinogenic amino acid from the lithiated enolate equivalent of a simple amino acid (e.g., glycine, alanine and valine), which involves the diastereoselective alkylation of the lithiated bis-lactim ether of an amino acid with an electrophile or an Aldol Reaction or Michael Addition to an o ,jS-unsaturated molecule and subsequent acidic hydrolysis. Therefore, the intermediate of the bis-lactim ether prepared from corresponding amino acids is generally referred to as the Schollkopf bis-lactim ether, " Schollkopf chiral auxiliary, Schollkopf reagent, or Schollkopf bis-lactim ether chiral auxiliary. Likewise, the Schollkopf bis-lactim ether mediated synthesis of chiral nonproteinogenic amino acid is known as the Schollkopf bis-lactim ether method, Schollkopf bis-lactim method, or Schollkopf methodology. In addition, the reaction between a lithiated Schollkopf bis-lactim ether and an electrophile is termed as the Schollkopf alkylation, while the addition of such lithiated intermediate to an Q ,j8-unsaturated compound is referred to as the Schollkopf-type addition. ... 

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