P amino aldehydes

Other synthons for 1,3-dicarbonyl compounds which have been successfully applied include p-chloro-a,P-unsaturated ketones and aldehydes, " P-amino-a,P Unsaturated ketones, vinylamidinium salts, and propiolic acid, reaction of which with urea gives uracil directly in about 50% yield. In analogy, pyrimidines fused to other rings, for example as in quinazolines, can be made from ortho-aminonitnl s and in general, from P-enaminoesters. ... 

Cyanohydrin Synthesis. Another synthetically useful enzyme that catalyzes carbon—carbon bond formation is oxynitnlase (EC 4.1.2.10). This enzyme catalyzes the addition of cyanides to various aldehydes that may come either in the form of hydrogen cyanide or acetone cyanohydrin (152—158) (Fig. 7). The reaction constitutes a convenient route for the preparation of a-hydroxy acids and P-amino alcohols. Acetone cyanohydrin [75-86-5] can also be used as the cyanide carrier, and is considered to be superior since it does not involve hazardous gaseous HCN and also virtually eliminates the spontaneous nonenzymatic reaction. (R)-oxynitrilase accepts aromatic (97a,b), straight- (97c,e), and branched-chain aUphatic aldehydes, converting them to (R)-cyanohydrins in very good yields and high enantiomeric purity (Table 10). 

Other nucleophiles add to conjugated systems to give Michael-type products. Aniline derivatives add to conjugated aldehydes in the presence of a catalytic amount of DBU (p. 488). Amines add to conjugated esters in the presence of InCla, La(OTf)3, or YTb(OTf)3 at 3kbar, for example, to give P-amino esters. This reaction can be initiated photochemically. An intramolecular addition of an amine unit to a conjugated ketone in the presence of a palladium catalyst, or... 

Scheme 3.1 L-Proline-derived P-amino thiol and disulfide ligands for additions of ZnEt2 to aldehydes.

On the other hand, novel diastereomeric p-amino thiol ligands possessing an isoquinuclidine skeleton have been readily prepared by Hongo et al. via imino-Diels-Alder reactions.As shown in Scheme 3.15, when applied to the enantioselective addition of ZnEt2 to various aldehydes, one of these ligands afforded the products with high enantioselectivities of up to 94% ee. 

Similar reactions were undertaken by Choi et al. in the presence of a new family of A -sulfonylated p-amino alcohols possessing two stereocentres as the chiral ligands. In using the chiral sulfonylated p-amino alcohol ligand depicted in Scheme 10.41, the asymmetric addition of McsSiCN to a wide range of aldehydes afforded the corresponding cyanohydrins in both excellent yields and enantioselectivities of up to 96% ee. 

They react with a wide range of aliphatic and aromatic aldehydes in the presence of catalytic amounts of tetrabutylammonium fluoride (TBAF) to give the trialkylsilyl ethers of P-nitro alcohols with high anti-selectivity (98%). The diastereoselective Henry reaction is summarized in Table 3.2. The products are reduced to P-amino alcohols using Raney Ni-H2 with retention of the configuration of P-nitro alcohols (Scheme 3.12). 

Similarly, chiral nitrones (61a—c) and (62a—c) were obtained from the corresponding a-amino aldehydes (209, 210), nitrones (63a,b) from p-amino-a-hydroxy aldehydes (211), and chiral nitrones (64) and (65) from IV-fluorenyl-methoxycarbonyl (/V-Fmoc) amino acids and /V-Fmoc-dipeptides (Fig. 2.6) (212). 

Mannich and related readions provide one of the most fundamental and useful methods for the synthesis of p-amino carbonyl compounds, which constitute various pharmaceuticals, natural products, and versatile synthetic intermediates.1271 Conventional protocols for three-component Mannich-type readions of aldehydes, amines, and ketones in organic solvents indude some severe side reactions and have some substrate limitations, espedally for enolizable aliphatic aldehydes. The dired synthesis of P-amino ketones from aldehydes, amines, and silyl enolates under mild conditions is desirable from a synthetic point of view. Our working hypothesis was that aldehydes could read with amines in a hydro-phobic reaction fidd created in water in the presence of a catalytic amount of a metal triflate and a surfactant to produce imines, which could then read with hydrophobic silyl enolates. 

The addition of an amine to the carbonyl group of an aldehyde yields—after removal of water—an aldimine (not shown see p. 178). Aldimines are intermediates in amino acid metabolism (see p. 178) and serve to bond aldehydes to amino groups in proteins (see p. 62, for example). The addition of an alcohol to the carbonyl group of an aldehyde yields a hemiacetal (R-O-C(H)OH-R). The cyclic forms of sugars are well-known examples of hemi-... 

Nitroaldol (Henry) reactions of nitroalkanes and a carbonyl were investigated by Hiemstra [76], Based on their earlier studies with Cinchona alkaloid derived catalysts, they were able to achieve moderate enantioselectivities between aromatic aldehydes and nitromethane. Until then, organocatalyzed nitroaldol reactions displayed poor selectivities. Based on prior reports by Sods [77], an activated thionrea tethered to a Cinchona alkaloid at the quinoline position seemed like a good catalyst candidate. Hiemstra incorporated that same moiety to their catalyst. Snbsequently, catalyst 121 was used in the nitroaldol reaction of aromatic aldehydes to generate P-amino alcohols in high yield and high enantioselectivities (Scheme 27). 

Three years after the discovery of the asymmetric BINOL phosphate-catalyzed Mannich reactions of silyl ketene acetals or acetyl acetone, the Gong group extended these transformations to the use of simple ketones as nucleophiles (Scheme 25) [44], Aldehydes 40 reacted with aniline (66) and ketones 67 or 68 in the presence of chiral phosphoric acids (R)-3c, (/ )-14b, or (/ )-14c (0.5-5 mol%, R = Ph, 4-Cl-CgH ) to give P-amino carbonyl compounds 69 or 70 in good yields (42 to >99%), flnfi-diastereoselectivities (3 1-49 1), and enantioselectivities (72-98% ee). 

This protocol complements Akiyama s method which provides P-amino carbonyl compounds as i yn-diastereomers [14], It tolerated aromatic, heteroaromatic, and aliphatic aldehydes. Cyclic ketones, acetone, as well as acetophenone derivatives could be employed. The use of aromatic ketones as Mannich donors was up to that time unprecedented in asymmetric organocatalysis. Rueping et al. independently expanded the scope of the asymmetric Brpnsted acid-catalyzed Mannich reaction of acetophenone [45]. 

Alternatively, the acidity of the aldehyde-derived CH or CH2 group can be enhanced by converting the isocyanide derived amide into an ester. According to this principle, tandem Ugi-Dieckmann was exploited in the context of carbapenem synthesis, where the first 4-membered ring was built through an intramolecular Ugi reaction of p-amino acid 66. Then, after a three-step manipulation of the carboxylic appendages, a Dieckmann cyclization afforded, stereoselectively, the desired carbapenem skeleton 67 [79]. 

The aldehyde can be replaced by an imine and the reaction is then called the aza-Baylis-Hillman reaction [87, 88]. (3-Amino-a-methylene structures obtained in this way could further be converted to a range of biologically important molecules, such as p-amino acids [89]. First reaction of this kind was published in 1984 [90]. Tosylimines and ethylacrylate reacted in the presence of DABCO as catalyst to give p-aminoesters. First three-component aza-Baylis-Hillman reaction was published in 1989 by Bertenshaw and Kahn [91], with imine formation in situ from an aldehyde and an amine. In the presence of triphenylphosphine as catalyst, the reaction with methylacrylate led to the formation of the p-amino-ot-methylene esters and ketones in good yields (Scheme 38). 

Generally, good yields of p-amino ester were obtained with aromatic aldehydes as well with an a,p-unsaturated aldehyde (Table 13, entries 12-16). Interestingly, we noted that the reaction was sterically sensitive because ortho substitution led to a decreased conversion (Table 13, compare entries 13 and 14). Aliphatic aldehydes... 

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