Unsaturated-1,2-amino alcohols, synthesis

Bortolussi described the synthesis of unsaturated amino alcohols 83 by thermolysis of furan adducts 82 use of microwaves resulted in a significant reduction in reaction time (Scheme 9.24) [75],... 

The transformation of the cyano group could also introduce a new chiral center under diastereoselective control (Figure 5.13). Grignard-transimination-reduction sequences have been employed in a synthesis of heterocyclic analogues of ephedrine [81]. The preferential formation of erythro-/3-amino alcohols may be explained by preferential hydride attack on the less-hindered face of the intermediate imine [82], and hydrocyanation of the imine would also appear to proceed via the same type of transition state. In the case of a,/3-unsaturated systems, reduction- transimination-reduction may be followed by protection of the /3-amino alcohol to an oxazolidinone, ozonolysis with oxidative workup, and alkali hydrolysis to give a-hydroxy-/3-amino acids [83]. This method has been successfully employed in the synthesis L-threo-sphingosine [84]. 

The hydroformylation of unsaturated nitriles such as crotonitrile and allyl cyanide is a potential route towards chiral amino alcohols, which are building blocks in the synthesis of pharmaceuticals. The hydroformylation of acrylonitrile was studied in the early years [5], but lately the hydroformylation of allyl cyanide and crotonitrile have also been investigated [25,81]. 

During an investigatior of the utihty of epoxide 240 as an intermediate in the synthesis of the HIV protease inhibitor Indinavir 241, it was found that the amino alcohol 237 must first be protected prior to iodination. Without protection, the iodination of the unsaturated amide 237 gave the unstable oxazoline 239 in 83% yield (Scheme 8.65). 

Chiral Ligand of LiAlH4 for the Enantioselective Reduction of a,p-Unsaturated Ketones. Enantioselective reductions of a,p-unsaturated ketones afford optically active ally lie alcohols which are useful intermediates in natural product synthesis. Enantioselective reduction of a,p-unsaturated ketones with LiAlH4 modified with chiral amino alcohol (1) affords optically active (S)-allylic alcohols with high ee s. When 2-cyclohexen-l-one is employed, (5)-2-cyclohexen-l-ol with 100% ee is obtained in 95% yield (eq 2). This is comparable with the results obtained using LiAlH4-chiral binaphthol and chiral 1,3,2-oxazaborolidine. ... 

The base-catalyzed addition of alcohols to nitriles to give imidates proceeds well, if there are electron-attracting groups in the a-position. In such cases the Pinner synthesis is less effective, because nitrile basicity is less. TTiis shows that both methods are complementary. Recently attention has been paid to the long-known addition of alcohols to trichloroacetonitrile, since it was found that imidates prepared from protected saccharides, amino alcohols etc. and trichloroacetonitrile are useful reagents for the synthesis of nucleosides, disaccharides and other natural products. The trichloroacetimidic acid esters (240 equation 131) of fluorinated, unsaturated aliphatic alcohols °° and benzyl alcohol have been prepared for synthetic purposes. 

Moelm, D., Floerke, U., Risch, N. Fragmentation reactions of quatemized y-amino alcohols. Diastereoselective synthesis of highly functionalized oxetanes and unsaturated aldehydes and ketones with a (Z)-C C double bond. Eur. J. Org. Chem. 1998, 2185-2191. 

The structure proposed for septicine (20), the dehydroindolizidine constituent of Ficus septica, has recently been confirmed by two independent syntheses. The first synthesis proceeded from veratraldehyde, which was condensed with homoveratric acid to give the unsaturated acid (21) this was then converted into the primary chloride (22) by standard methods. Alkylation of L-prolinol with this chloride gave the amino-alcohol (23), which was converted into its O-methanesulphonate ester. Reaction of this ester with sodium hydride in anhydrous... 

There are few reports of successful one-step synthesis of primary diamines, and the examples are limited to amines with a special structure. Amination of 1,4-cy-clohexanediol in supercritical ammonia (135 bar) over a Co-Fe catalyst alforded 67 % 1,4-diaminocyclohexane [21]. Excess ammonia, as both supercritical solvent and reactant, and short contact time in the continuous fixed-bed reactor favored the desired reactions. In the best example the cumulative selectivity for the diamine and the intermediate amino alcohol was 97 % at 76 % conversion. Recycling of the unreacted diol and amino alcohol can provide an alternative to the eurrent process, the hydrogenation of pnra-phenylenediamine. The high seleetivity was because of the rigid structure and the relative positions of OH functionality in the substrate. For comparison, amination of 1,4-butanediol under similar conditions yielded pyiTolidine as the major product 1,4-diaminobutane was barely detectable. When 1,3-cyclohexanediol was aminated with the same catalyst in the continuous system, the yield of 1,3-diaminoeyclohexane dropped below 5%, mainly because elimination of water led to undesired monofunctional products via a,/9-unsaturated alcohol, ketone, and/or amine intermediates [22]. 

Modifications of these basic materials include the formation of the V-methanesu 1 tonate 36 which has been used for the synthesis of boronates used in allyl transfer reactions39 (Section D. 1.3.3.3.) and the attachment of the compounds to a chloromethylated polystyrene (Merrifield resin)40. The immobilized amino alcohol has been used as a catalyst for the addition of zinc alkyls to carbonyl compounds (Section D. 1.3.1.4.). 2,/ -Unsaturated dihvdrooxazoles have been prepared from such amino alcohols by reaction with imino ethers41 and used as chiral dienophiles in Diels-Alder reactions (Section D. 1.6.1.1.1.2.2.1.1.). 

Intramolecular reaction of allenes is known to proceed mainly by palladation at the central carbon to generate alkenylpalladium 235, which undergoes further reactions. Also TT-allylpalladium 236 is formed when a nucleophile attacks the central carbon. The intramolecular aminopalladation of the 6-aminoallene 237, followed by CO insertion, afforded the unsaturated amino ester 238. The reaction has been applied to the enantioselective synthesis of pumiliotoxin [103]. Oxycarbonylation of the allenyl alcohol 239 afforded the unsaturated ester 240 in 83 % yield using a catalytic amount of PdCl2 and 3 equivalents of CuCb in MeOH and is used for the synthesis of rhopaloic acid [104]. 

Meyers and colleagues described the palladium-catalyzed carbonylative synthesis of oxazolines as early as 1992 [268]. Aryl or enol triflates made from the corresponding ketones and phenols, and also aryl halides, were used as starting materials and coupled with amino alcohols to give chiral a,)S-unsaturated or aryl oxazolines in good yields. Later on, Perry s group performed systematic studies on this one-pot, two-step process for the preparation of oxazolines (Scheme 2.37) [269, 270]. 

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