Michael addition 2-amino alcohol

A number of chiral alcohols and amino alcohols have been applied as auxiliaries to enolates. The induction may be explained by the shielding of one of the faces of the cnolate by a bulky alkoxy or aryl substituent. Representative examples, together with the results in diastereoselec-tive 1,4-additions with different Michael acceptors, are given in the following. 

Several methods for asymmetric C —C bond formation have been developed based on the 1,4-addition of chiral nonracemic azaenolates derived from optically active imines or enamines. These methods are closely related to the Enders and Schollkopf procedures. A notable advantage of all these methods is the ready removal of the auxiliary group. Two types of auxiliaries were generally used to prepare the Michael donor chiral ketones, such as camphor or 2-hydroxy-3-pinanone chiral amines, in particular 1-phenylethanamine, and amino alcohol and amino acid derivatives. 

Intramolecular nitrone cycloadditions often require higher temperatures as nitrones react more sluggishly with alkenes than do nitrile oxides and the products contain a substituent on nitrogen which may not be desirable. Conspicuously absent among various nitrones employed earlier have been NH nitrones, which are tautomers of the more stable oximes. However, Grigg et al. [58 a] and Padwa and Norman [58b] have demonstrated that under certain conditions oximes can undergo addition to electron deficient olefins as Michael acceptors, followed by cycloadditions to multiple bonds. We found that intramolecular oxime-olefin cycloaddition (lOOC) can occur thermally via an H-nitrone and lead to stereospecific introduction of two or more stereocenters. This is an excellent procedure for the stereoselective introduction of amino alcohol functionality via N-0 bond cleavage. 

A typical second step after the insertion of CO into aryl or alkenyl-Pd(II) compounds is the addition to alkenes [148]. However, allenes can also be used (as shown in the following examples) where a it-allyl-r 3-Pd-complex is formed as an intermediate which undergoes a nucleophilic substitution. Thus, Alper and coworkers [148], as well as Grigg and coworkers [149], described a Pd-catalyzed transformation of o-iodophenols and o-iodoanilines with allenes in the presence of CO. Reaction of 6/1-310 or 6/1-311 with 6/1-312 in the presence of Pd° under a CO atmosphere (1 atm) led to the chromanones 6/1-314 and quinolones 6/1-315, respectively, via the Jt-allyl-r 3-Pd-complex 6/1-313 (Scheme 6/1.82). The enones obtained can be transformed by a Michael addition with amines, followed by reduction to give y-amino alcohols. Quinolones and chromanones are of interest due to their pronounced biological activity as antibacterials [150], antifungals [151] and neurotrophic factors [152]. 

Ono and Kamimura have found a very simple method for the stereo-control of the Michael addition of thiols, selenols, or alcohols. The Michael addition of thiolate anions to nitroalkenes followed by protonation at -78 °C gives anti-(J-nitro sulfides (Eq. 4.8).11 This procedure can be extended to the preparation of a/jti-(3-nitro selenides (Eq. 4.9)12 and a/jti-(3-nitro ethers (Eq. 4.10).13 The addition products of benzyl alcohol are converted into P-amino alcohols with the retention of the configuration, which is a useful method for anri-P-amino alcohols. This is an alternative method of stereoselective nitro-aldol reactions (Section 3.3). The anti selectivity of these reactions is explained on the basis of stereoselective protonation to nitronate anion intermediates. The high stereoselectivity requires heteroatom substituents on the P-position of the nitro group. The computational calculation exhibits that the heteroatom covers one site of the plane of the nitronate anion.14... 

Two new types of optically active 1,3-oxazines (41) were synthesized by Rassat and Rey (74T265, 74T3315). The epimeric 1,3-amino alcohols 40, prepared from (-l-)-pulegone 39 by Michael addition of ammonia and subsequent reduction, were cyclized with acetone, cyclohexanone, and 4-tert-... 

Other authors have described the lipase-catalyzed chemoselective acylation of alcohols in the presence of phenolic moities [14], the protease-catalyzed acylation of the 17-amino moiety of an estradiol derivative [15], the chemoselectivity in the aminolysis reaction of methyl acrylate (amide formation vs the favored Michael addition) catalyzed by Candida antarctica lipase (Novozym 435) [16], and the lipase preference for the O-esterification in the presence of thiol moieties, as, for instance, in 2-mercaptoethanol and dithiotreitol [17]. This last finding was recently exploited for the synthesis of thiol end-functionalized polyesters by enzymatic polymerization of e-caprolactone initiated by 2-mercaptoethanol (Figure 6.2)... 

In a closely related asymmetric reaction, the required absolute stereochemistry at C-4 was established via a Michael addition of a cuprate reagent to a dihydropiperidinone (Scheme 12). The stereochemistry at C-3 was introduced in the form of piperidinone 61, a compound readily available from (5)-glutamic acid. Protection of both the amino and alcohol functionalities was achieved using standard reaction conditions to give 62. Introduction of the A -double bond was accomplished via phenylselenation of the lithium... 

Aliphatic nitro compounds are versatile building blocks and intermediates in organic synthesis,14 15 cf. the overview given in the Organic Syntheses preparation of nitroacetaldehyde diethyl acetal.16 For example, Henry and Michael additions, respectively, lead to 1,2- and 1,4-difunctionalized derivatives.14 18 1,3-Difunctional compounds, such as amino alcohols or aldols are accessible from primary nitroalkanes by dehydration/1,3-dipolar nitrile oxide cycloaddition with olefins (Mukaiyama reaction),19 followed by ring cleavage of intermediate isoxazolines by reduction or reduction/hydrolysis.20 21... 

List B, Lerner RA, Barbas CF 3rd (2000) Proline-catalyzed direct asymmetric aldol reactions. J Am Chem Soc 122 2395-2396 List B, Pojarliev P, Martin HJ (2001) Efficient proline-catalyzed Michael additions of unmodified ketones to nitro olefins. Org Lett 3 2423-2425 List B, Pojarliev P, Biller WT, Martin HJ (2002) The proline-catalyzed direct asymmetric three-component Mannich reaction scope, optimization, and application to the highly enantioselective synthesis of 1,2-amino alcohols. J Am Chem Soc 124 827-833... 

In this connection, intramolecular Michael addition of 0-carbamates to a,3-unsaturated esters (Scheme 60)," iodo cyclization of allylic and homoallylic trichloroacetamidates" or aminomercuration of alkenic carbamates" has been used for the preparation of amino alcohols. 

Enantioselective Michael addition of thiols to enones is a useful reaction for the synthesis of sex pheromones [26] and terpenes [27]. For example, enantioselective Michael additions of thiols to 2-cyclohexenone (64) and maleic acid esters in the presence of chiral bases such as cinchona alkaloids [28, 29] and optically active amino alcohols [30, 31] have been reported. It has also been found that the enantioselective Michael addition reaction proceeds efficiently in an inclusion crystal... 

The reaction shown in Eq. (56) can be studied using optically active catalysts to envisage asynunetric induction in this Michael addition. For this purpose, chiral tetraalkylanmionium salts derived from )8-amino alcohols are considered (Scheme 17) either from N-methylephedrine 1 or cinchonine 2. 

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