Allyl prolinate

Allyl prolinate, 292 (lS,2S)-2-Amino-3-methoxy-l-phenyl-1-propanol, 17... 

Optically active a-branched proline derivative III-47 was obtained by a one-pot procedure (Scheme 4.25) [121]. Proline/chloral precursor III-45 was exposed to sodium methoxide, resulting in rapid conversion to the A-formyl ester at room temperature. Cleavage of the A-formyl group was efficient performed by heating with hydrochloric acid Thus, the desired / -allyl prolinate hydrochloride salt III-47 was obtained reproducibility in a multigram scale. °... 

Enamines derived from ketones are allylated[79]. The intramolecular asymmetric allylation (chirality transfer) of cyclohexanone via its 5-proline ally ester enamine 120 proceeds to give o-allylcyclohexanone (121) with 98% ee[80,8l]. Low ee was observed in intermolecular allylation. Similarly, the asymmetric allylation of imines and hydrazones of aldehydes and ketones has been carried out[82]. 

Similar stereoselectivities are achieved in the allylation of enantiomerically pure proline-derived a-oxoamides47. l-Bromo-3-methy]-2-butcne reacts with clean allylic inversion. Since pinacol-type coupling products are also produced under the reaction conditions, this was taken as evidence for a radical addition mechanism47. 

Hydroxy-L-prolin is converted into a 2-methoxypyrrolidine. This can be used as a valuable chiral building block to prepare optically active 2-substituted pyrrolidines (2-allyl, 2-cyano, 2-phosphono) with different nucleophiles and employing TiQ as Lewis acid (Eq. 21) [286]. Using these latent A -acylimmonium cations (Eq. 22) [287] (Table 9, No. 31), 2-(pyrimidin-l-yl)-2-amino acids [288], and 5-fluorouracil derivatives [289] have been prepared. For the synthesis of p-lactams a 4-acetoxyazetidinone, prepared by non-Kolbe electrolysis of the corresponding 4-carboxy derivative (Eq. 23) [290], proved to be a valuable intermediate. 0-Benzoylated a-hydroxyacetic acids are decarboxylated in methanol to mixed acylals [291]. By reaction of the intermediate cation, with the carboxylic acid used as precursor, esters are obtained in acetonitrile (Eq. 24) [292] and surprisingly also in methanol as solvent (Table 9, No. 32). Hydroxy compounds are formed by decarboxylation in water or in dimethyl sulfoxide (Table 9, Nos. 34, 35). 

Phosphinous amides, based on proline and tetrahydroisoquinoline carboxylic acid, bearing a second donor center (50, Ar=Ph R =H, CH3,Tr, Ph R =H, CH3,Tr, Ph and 51, R =H,Tr R =H,Tr) (Scheme 40) have been developed for use in allylic alkylation and amination of substituted propenyl acetates, yielding the corresponding products in 87-98% (5-94% ee) and 29-97% (14-93% ee) respectively [55, 167]. With bidentate ligands of type 38 where R=(S)-PhMeCH, and with the bis(aminophosphanes) 52 (R=Ph) similar allylic alkylations have been also tested [168,169]. 

Palladium-catalysed asymmetrie allylations of various carbonyl compounds have been studied by Hiroi et al. using various types of chiral sulfonamides derived from a-amino acids. In particular, the chiral bidentate phosphinyl sulfonamide derived from (5)-proline and depicted in Scheme 1.63 was employed in the presence of palladium to eatalyse the allylation of methyl aminoacetate diphenyl ketimine with allyl aeetate, leading to the eorresponding (7 )-product with a moderate enantioseleetivity of 62% ee. This ligand was also applied to the allylation of a series of other nueleophiles, as shown in Seheme 1.63, providing the eorresponding allylated produets in moderate enantioseleetivities. 

Hydroxamic acids constitute an important class of siderophores, which play a major role in iron solubilization and transport. Some of them are important as therapeutic agents. The Michael addition of nitroacetyl proline esters to allyl acrylate followed by Pd(0)-catalyzed intramolecular allyl transfer and subsequent reduction of the nitro group yields a novel class of cyclic hydroxamic acids related to pyroglutamic acid (Scheme 5.9).85... 

Radical cyclization of N-alkenylamino acid derivatives Proline derivatives can be obtained by cyclization of N-alkenyl amino acid derivatives. Thus the (3-iodo allylic amine 2, prepared in 54% yield from threonine, cyclizes in the presence... 

Except for a 1976 report in the patent literature (100a), the first true catalytic asymmetric allylic oxidation using copper was reported in 1991 by Muzart (100b). Of the various amino acids investigated as ligands for Cu(II), (S) proline was found... 

Scheme 10. Results of proline-copper catalyzed allylic oxidation, prom (105).] X-ray crystal structure of (R.Sf-complex 146. [Adapted from (106).]...

Unlike CO, it is possible to polymerize isocyanides (R—N=C), isoelectronic analogs to CO. When R is a bulky group, such as tert-Bu, the polymer forms a stable helical structure. Asymmetric catalytic polymerization has been reported for t-Bu-NC using [Ni(T 3-allyl)(iV-trifluoroacetyl-proline)]2 providing (M)-helical polymer with 69% ee. The more stable helical polymer was prepared from 1,2-diisocya-nobenzene derivative initiated by a chiral Pd complex. (See Scheme 4.19.)... 

Asymmetric allylic oxidation and benzylic oxidation (Kharasch-PSosnovsky reaction) are important synthetic strategies for constructing chiral C—O bonds via C—H bond activation.In the mid-1990s, the asymmetric Kharasch-Sosnovsky reaction was first studied by using chiral C2-symmetric bis(oxazoline)s. " Later various chiral ligands, based mainly on oxazoline derivatives and proline derivatives, were used in such asymmetric oxidation. Although many efforts have been made to improve the enantioselective Kharasch-Sosnovsky oxidation reaction, most cases suffered from low to moderate enantioselectivities or low reactivities. 

Similar results were reported by the Barret group by using stoichiometric amounts of an enantiopure 2-(2-pyridinyl)-2-oxazoline [46], hi 1996, Iseki and Kobayashi achieved a catalytic version of the asymmetric allylation [47], They applied proline-based chiral HMPA derivatives for the allylation. The catalyst 21 proved to be the best one regarding catalyst loading down to 1 mol% (Scheme 16) [48],... 

HayasM et al. achieved high catalytic activity by using axially chiral iV-oxide catalyst 27. As compared to other organic catalysts, the reaction proceeded much faster, and high enantioselectivities were obtained with 0.01-0.1 mol% catalyst loading [53-55]. In 2005, Hoveyda and Snapper used a novel proline-based ahphatic A-oxide 28 for an asymmetric allylation (Scheme 19) [56],... 

A number of groups have also studied alkylation in cyclic allyl systems. Selected examples of reations using 3-acetoxycyclohexene 581 are listed in Table 8.36 (Scheme Although the proline-based PhosOx ligands 545 did... 

During the investigation of the molybdenum-catalyzed epoxidation of the allylic alcohol (43) mediated by a chiral (S)-proline derivative (44). S. Coleman-Kammula... 

Seebach and Naef1961 generated chiral enolates with asymmetric induction from a-heterosubstituted carboxylic acids. Reactions of these enolates with alkyl halides were found to be highly diastereoselective. Thus, the overall enantioselective a-alkyla-tion of chiral, non-racemic a-heterosubstituted carboxylic acids was realized. No external chiral auxiliary was necessary in order to produce the a-alkylated target molecules. Thus, (S)-proline was refluxed in a pentane solution of pivalaldehyde in the presence of an acid catalyst, with azeotropic removal of water. (197) was isolated as a single diastereomer by distillation. The enolate generated from (197) was allylated and produced (198) with ad.s. value >98 %. The substitution (197) ->(198) probably takes place with retention of configuration 196>. 

The same strategy has been used by Williams (90JA808) in his synthesis of brevianamide B. The aldehyde (82), prepared enantioselectively from L-proline, was converted to the silyl ether. Acylation of this (BuLi, ClC02Me) gave the carbomethoxy derivative as a mixture of diastereo-mers, which was alkylated by gramine. As before, an enolate alkylation (Sn2 ) on an allyl chloride derived from the above gave the tricyclic compound, which could be transformed to brevianamide B (Scheme 24). 

The acyclic sulfonimidoyl-substituted amino acids 24 were selected as starting material for the synthesis of the unsaturated prolines of type 63. Because of the facile synthesis of the unsaturated bicyclic tetrahydrofurans 53 from the vinyl aminosulfoxonium salts 46 (cf. Scheme 1.3.20), it was speculated that upon treatment with a base the vinyl aminosulfoxonium salts 67 would experience a similar isomerization with formation of the allyl aminosulfoxonium salts 69, which in turn could suffer an intramolecular substitution of the allylic aminosulfoxonium group (Scheme 1.3.24). The methylation of sulfoximines 24 with Me30Bp4 gave... 

Scheme 1.3.24 Asymmetric synthesis of unsaturated monocyclic prolines via intramolecular substitution of allyl aminosulfoxonium salts.

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