Diastereoselective synthesis asymmetric reductive amination

The resolution required for the synthesis of 288 or 291 can be avoided by making them by asymmetric reduction or by asymmetric alkylation of an aldehyde . The amines 291 (R = Et or w-Bu) formed in this way are lithiated with diastereoselectivity similar to, or greater than, that achieved with 288. a-Ethyl and a-butylphosphines 294 incidentally may show even higher selectivity than the more widely used a-methylphosphine ligand PPEA 283. 

Asymmetric Total Synthesis of ( )-Deoxoproso-phylline Zhu and Jourdant reported on an asymmetric total synthesis of (—)-deoxoprosophylline 157 starting from chiral L-Af,Af-dibenzyl serine and methyl aceto-acetate by exploiting a highly diastereoselective intramolecular reductive amination. The compound 155 underwent chemoselective iV-debenzylation followed by reductive amination to afford O-benzyl deoxoprosophyl-line 156. After this step, a simple 0-debenzylation... 

An efficient enantioselective total synthesis of (—) -cis-clavidpitic acid was reported by Park and coworkers (Scheme 12.3) [103]. The asymmetric phase-transfer catalytic alkylation of 65a with 68 was employed as the key step, producing the urmatural oi-amino acid derivative 69 for the introduction of the 5S chirality. Starting from a glycine derivative 65a, Maruoka and coworkers successfully developed a strategy for the asymmetric synthesis of cyclic amino acids having a piperidine or azepane core structure by the combination of a phase-transfer catalytic asymmetric alkylation and a subsequent diastereoselective reductive amination. This approach allows the... 

In this chapter, recent applications of (W)-phcnylglycine amide (1) in asymmetric synthesis are presented (Figure 25.2). The first section deals with diastereoselective Strecker reactions for the preparation of a-amino acids and derivatives, whereas the second section focuses on diastereoselective allylation of imines for preparation of enantiomerically pure homoallylamines. This latter class of compounds is a well-known intermediate for the synthesis of, for example, many types of amines, amino alcohols, and P-amino acids. The final section describes reduction of imines providing enantiomerically pure amines. (S)-3,3-Dimethyl-2-butylamine and (S)-l-aminoindane will be presented as leading examples. The results described in this chapter originate from a longstanding cooperation in the field of chiral technology development between DSM Pharma Chemicals and Syncom B.V. 

One of the most successful classes of chiral auxiliaries for asymmetric synthesis is that of Enders proline-based hydrazines, namely (S)-l-amino-2-methoxymethylpyrrolidine (SAMP, 74) and its (R)-enantiomer RAMP (Scheme 11.11) [68]. Enders has reported that chiral hydrazones such as 75 undergo diastereoselective additions with organolithium reagents. The facile removal of the auxiliary by reductive cleavage of the N-N bond enables it as a versatile tool for the synthesis of a wide range of chiral secondary amines [69, 70]. As shown in Scheme 11.11, the secondary amine 77 was thus prepared in 73 % overall yield and 93 % ee [69]. 

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