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Amino acids enolates from

Thus, a reversal of the diastereoseleetivity of the reaetion was observed if the enolate was prepared in the presenee of a lithiated base. The different behaviour of the base could be attributable to the geometry of the enolate. It was assumed that the use of KOH as a base would give predominantly the E enolate, whereas the Z enolate would be formed with a lithiated base such as LiN(TMS)2- This methodology was applied to the asymmetric synthesis of quaternary a-amino acids starting from an imino alaninate compound. [Pg.25]

Asymmetric syntheses of (3- amino acids result from the addition of chiral enolates (399) to nitrone (400) via A-acyloxyiminium ion formation (642, 643). Regioselective convergence is obtained in the reactions of chiral boron- and titanium- enolates (399a,b), (401), and (402). This methodology was used in preparing four stereoisomers of a-methyl- 3-phenylalanine (403) in enantiomeric pure form (Scheme 2.179) (644). [Pg.276]

In 1997, the first truly catalytic enantioselective Mannich reactions of imines with silicon enolates using a novel zirconium catalyst was reported [9, 10]. To solve the above problems, various metal salts were first screened in achiral reactions of imines with silylated nucleophiles, and then, a chiral Lewis acid based on Zr(IV) was designed. On the other hand, as for the problem of the conformation of the imine-Lewis acid complex, utilization of a bidentate chelation was planned imines prepared from 2-aminophenol were used [(Eq. (1)]. This moiety was readily removed after reactions under oxidative conditions. Imines derived from heterocyclic aldehydes worked well in this reaction, and good to high yields and enantiomeric excesses were attained. As for aliphatic aldehydes, similarly high levels of enantiomeric excesses were also obtained by using the imines prepared from the aldehydes and 2-amino-3-methylphenol. The present Mannich reactions were applied to the synthesis of chiral (3-amino alcohols from a-alkoxy enolates and imines [11], and anti-cc-methyl-p-amino acid derivatives from propionate enolates and imines [12] via diastereo- and enantioselective processes [(Eq. (2)]. Moreover, this catalyst system can be utilized in Mannich reactions using hydrazone derivatives [13] [(Eq. (3)] as well as the aza-Diels-Alder reaction [14-16], Strecker reaction [17-19], allylation of imines [20], etc. [Pg.144]

Azodicarboxylates are efficient sources of positive nitrogen used in the preparation a-hydrazino and a-amino acids starting from chiral enolates. Di-rm-butyl 4a [3b] (DTBAD) and dibenzyl 4b [3c] (DBAD) azodicarboxylates are the most commonly used reagents for diastereoselective electrophilic animation (Scheme 11). Both compounds are available commercially. [Pg.71]

The addition of boron enolates to imincs is useful for the construction of anti-fi-amino acid derivatives8. On the other hand, it is possible to control the direction of the diastereoselective addition of enolates from (A)-phenyl alkanethioates with imines9. [Pg.760]

Tin(Il) shows considerable affinity towards nitrogen, therefore is expected to activate the imino group. The diastereoselective addition of tin(II) enolates derived from thioesters 1 to x-imino-esters 2 is reported12. This reaction proceeds smoothly to afford. vi w-/j-amino acid derivatives 3 (d.r. 95 5) in good yields. Lithium, magnesium, and zinc enolates do not react while titanium enolates give the adducts in low yield with preferential formation of the anti-isomer. [Pg.761]

An excellent method for the diastereoselective synthesis of substituted amino acids is based on optically active bislactim ethers of cyclodipeptides as Michael donors (Schollkopf method, see Section 1.5.2.4.2.2.4.). Thus, the lithium enolates of bislactim ethers, from amino acids add in a 1,4-fashion to various a,/i-unsaturated esters with high diastereofacial selectivity (syn/anti ratios > 99.3 0.7-99.5 0.5). For example, the enolate of the lactim ether derivative 6, prepared from (S)-valine and glycine, adds in a highly stereoselective manner to methyl ( )-3-phenyl-propenoate a cis/trans ratio of 99.6 0.4 and a syn/anti ratio of 91 9, with respect to the two new stereogenic centers, in the product 7 are found105, los. [Pg.965]

Thus, the dianion derived from a-amino acid substitutes the /1-chloride to give the ester of 2-(phenylsulfonyl)ethenyl amino acid and subsequent desulfonylation provides N-(benzoyl)vinylalanine methyl ester (62) (equation 61). The conjugate addition of enolates to methyl styryl sulfone (63) and subsequent intramolecular addition to the carbonyl moiety provide a synthetically valuable method for the construction of bicyclic and tricyclic skeletons52. Desulfonylation of the cyclization product 64 with sodium in ethanol-THF gives the diene 65 in good yield (equation 62). [Pg.777]

Another approach for the synthesis of enantiopure amino acids or amino alcohols is the enantioselective enzyme-catalyzed hydrolysis of hydantoins. As discussed above, hydantoins are very easily racemized in weak alkaline solutions via keto enol tautomerism. Sugai et al. have reported the DKR of the hydantoin prepared from DL-phenylalanine. DKR took place smoothly by the use of D-hydantoinase at a pH of 9 employing a borate buffer (Figure 4.17) [42]. [Pg.101]

A general approach to the synthesis of enantiomerically pure y, as weU as y " -amino acids has been developped by Brenner and Seebach [206, 207, 230]. It involves the Michael addition of Ti-enolates generated from acyl-oxazohdin-2-ones to nitroolefms in the presence of a Lewis acid (TiCU, Et2AlCl) as the key step... [Pg.86]

The reaction mechanism for glutamate racemase has been studied extensively. It has been proposed that the key for the racemization activity is that the two cysteine residues of the enzyme are located on both sides of the substrate bound to the active site. Thus, one cysteine residue abstracts the a-proton from the substrate, while the other detivers a proton from the opposite side of the intermediate enolate of the amino acid. In this way, the racemase catalyzes the racemization of glutamic acid via a so-called two-base mechanism (Fig. 15). [Pg.318]

From Sigma 3-aminoethylcarbazole (AEC) acrylamide/bis-acrylamide (30%) 37.5 1 amino acids alumina bentonite benzamidine bovine fiver tRNA bovine serum albumin (BSA) creatine phosphate (CP) diethyl pyrocarbonate (DEPC) dithiothreitol (DTT) Escherichia coli MRE600 tRNA pyrophosphatase (Ppase) Ca++ salt of folinic acid, (5-formyl THF) IIHPHS K salt of phospho-enol pyruvic acid, (PEP) creatine phospho kinase (CPK) protease inhibitor cocktail for fungal and yeast extracts phenylmethylsulfonyl fluoride (PMSF) spermidine trihydrochloride Tween 20. [Pg.262]

Clayden and co-workers reported the dearomatiztion of an electron-deficient pyridine ring via intramolecular cyclization of an enolate shown in the scheme above <06OL5325>. Generation of the amino acid derived enolate of 46, with simultaneous activation of the pyridine ring by IV-acylation, leads to a stereoselective transition state 47. The authors postulate that the stereoselectivity arises from the manner in which the bulky PMP (p-... [Pg.321]

In addition to the asymmetric induction mentioned above, sultam 53 can also be used to prepare enantiomerically pure amino acids (Scheme 2-29 and Table 2-10).55 Me AI-mediated acylation of 53 with methyl A-[bis(methylthio)-methylene]glycinate 56 provided, after crystallization, glycinate 57, which can serve as a common precursor for various a-amino acids. In agreement with a kinetically controlled formation of chelated (Z)-enolates, alkylation happened from the SZ-face of the a-C, opposite to the lone pair electrons on the sultam nitrogen atom. High overall yield for both the free amino acid 58 and the... [Pg.95]

The asymmetric hydrogenation of enol esters can also be catalyzed by chiral amidophosphine phosphinite catalysts derived from chiral amino acids, but the enantioselectivity of these reactions has thus far been only moderate.35... [Pg.345]

The nucleophilic carbon centres of lithium enolates may also be pyrami-dalized, though there is little experimental evidence of this (Seebach et al., 1985, 1991). Silyl enol ethers are generally planar, but two (67 R = Ph and OMe] derived from an imidazolidinone used in amino acid synthesis show... [Pg.132]

Aldol and Related Condensations As an elegant extension of the PTC-alkylation reaction, quaternary ammonium catalysts have been efficiently utilized in asymmetric aldol (Scheme 11.17a)" and nitroaldol reactions (Scheme ll.lTb) for the constmction of optically active p-hydroxy-a-amino acids. In most cases, Mukaiyama-aldol-type reactions were performed, in which the coupling of sUyl enol ethers with aldehydes was catalyzed by chiral ammonium fluoride salts, thus avoiding the need of additional bases, and allowing the reaction to be performed under homogeneous conditions. " It is important to note that salts derived from cinchona alkaloids provided preferentially iyw-diastereomers, while Maruoka s catalysts afforded awh-diastereomers. [Pg.338]

The potassium enolate prepared from atrolactic acid derivative II undergoes aldol reaction to give 12 in a highly stereoselective manner. Successive acid treatment gives syn-amino acid 13 in good yield (7). [Pg.280]

See other pages where Amino acids enolates from is mentioned: [Pg.597]    [Pg.27]    [Pg.397]    [Pg.587]    [Pg.333]    [Pg.215]    [Pg.231]    [Pg.246]    [Pg.246]    [Pg.54]    [Pg.18]    [Pg.11]    [Pg.41]    [Pg.20]    [Pg.318]    [Pg.304]    [Pg.349]    [Pg.238]    [Pg.264]    [Pg.52]    [Pg.93]    [Pg.95]    [Pg.110]    [Pg.199]    [Pg.98]    [Pg.213]    [Pg.29]    [Pg.93]    [Pg.377]    [Pg.377]   
See also in sourсe #XX -- [ Pg.184 , Pg.185 , Pg.186 ]



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