Stereoselectivity transition metal enolates

The counterion of an enolate has a pronounced influence on competing transition states of enolate reactions. The effect is often the result of cation chelation by the carbonyl oxygen atom and one or more additional basic portions of the reactants. For example, alkylation of chiral enolates may lead to more or less diastereomerically pure products and selectivity often depends on the countercation. The importance of the countercation in controlling enolate reaction product distributions requires that the synthetic chemist has at hand stereoselective methods for the preparation of enolate anions with a wide variety of counterions. This chapter is divided into several sections. The 10 following sections describe important current methods for preparing Li, Mg, B, Al, Sn, Ti, Zr, Cu, Zn and other transition metal enolates. 

The aldol reactions of titanium enolates have been the best studied of all the transition metal enol-ates."- In many cases they show higher stereoselectivity and chemoselectivity in their reactions than lithium enolates and are easily prepared using inexpensive reagents. They also promote high levels of diastereofacial selectivity in reactions of chiral reactants. The Lewis acidity of the titanium metal center can be easily manipulated by variation of the ligands (chloro, alkoxy, amino, cyclopentadienyl, etc.) attached to titanium, which leads to enhanced selectivity in appropriate cases. Moreover, the incorporation of chiral ligands on titanium makes possible efficient enantioselective aldol reactions. 

Historical perspective C. H. Heathcock, Comp. Org. Syn. 2, 133-179 (1991). General review T. Mukaiyama, Org. React. 28,203-331 (1982). Application of lithium and magnesium enolates C. H. Heathcock, Comp. Org. Syn. 2, 181-238 (1991) of boron enolates B. M. Kim etal, ibid. 239-275 of transition metal enolates I. Paterson, ibid. 301-319. Stereoselective reactions of ester and thioester enolates M. Braun, H. Sacha, J. Prakt. Chem. 335,653-668 (1993). Review of asymmetric methodology A. S. Franklin, I. Paterson, Contemp. Org. Syn. 1,317-338 (1994). Cf. Claisen-Schmidt Condensation Henry Reaction Ivanov Reaction Knoevenagel Condensation Reformatskv Reaction Robinson Annulation. 

Due to mechanistic requirements, most of these enzymes are quite specific for the nucleophilic component, which most often is dihydroxyacetone phosphate (DHAP, 3-hydroxy-2-ox-opropyl phosphate) or pyruvate (2-oxopropanoate), while they allow a reasonable variation of the electrophile, which usually is an aldehyde. Activation of the donor substrate by stereospecific deprotonation is either achieved via imine/enamine formation (type 1 aldolases) or via transition metal ion induced enolization (type 2 aldolases mostly Zn2 )2. The approach of the aldol acceptor occurs stereospecifically following an overall retention mechanism, while facial differentiation of the aldehyde is responsible for the relative stereoselectivity. 

Several examples of transition metal catalysis for the synthesis of piperidines appeared this year. Palladium catalyzed intramolecular urethane cyclization onto an unactivated allylic alcohol was described as the key step in the stereoselective synthesis of the azasugar 1-deoxymannojirimycin . A new synthetic entry into the 2-azabicyclo[3.3.1]nonane framework was accomplished through a palladium mediated intramolecular coupling of amine tethered vinyl halides and ketone enolates in moderate yields . A palladium catalyzed decarboxylative carbonylation of 5-vinyl... 

On the other hand, the use of [Rh(CO)2Cl]2 as a catalyst results in ring opening of the siloxycyclopropanes 13 to the silyl enol ethers 14 with high stereoselectivity [10]. The 2-siloxyrhodacyclobutane 15a is proposed to undergo j8-elimination to give jr-allylrhodium 16a followed by reductive elimination to the silyl enol ether 14a. 1-Trimethylsiloxybicyclo[n.l.0]alkanes serve as / -metallo-carbonyl compounds via desilylation with a variety of transition metals [11]. The palladium-catalyzed reaction of the siloxycyclopropanes 17 under carbon monoxide in chloroform provides a route to the 4-keto pimelates 18. In the presence of aryl triflates, the 1,4-dicarbonyl compounds 19 are... 

Stereoselective functionalization of enolates derived from 2-acyl-2-alkyl-1,3-dithiane 1-oxides Stereoselective enolate alkylation. There has been much interest over recent years in the enantio- and diastereocontrol of enolate alkylation.19 Most methods which do not rely on asymmetric alkylating agents hinge on a derivatization of the ketonic substrate with an enantiomerically pure auxiliary. Examples of such chiral auxiliaries include oxazolines20 and oxazolidi-nones.21 We reasoned that the sulfoxide unit present in our 2-acyl-2-alkyl-1,3-dithiane 1-oxide substrates might be expected to influence the transition-state geometry of a ketone enolate, perhaps by chelation to a metal counterion, and hence control the stereochemistry of alkylation. 

---