Lithiation homoenolate equivalent

An alternative formation of titanated alkoxyallenes could be achieved by reaction of 3-alkoxy-2-propyn-l-yl carbonates 78 with (r/2-propene)titanium diisopropoxylate (79). Successive addition of 80 to benzaldehyde afforded the corresponding addition products 81 in high yield (Scheme 8.22) [70]. The results demonstrate that titanium species 75 and 80 can serve as easily available ester homoenolate equivalents. Notably, conversion of lithiated alkoxyallenes to the magnesium species by treatment with MgBr2 followed by addition to chiral carbonyl compounds resulted in a mixture of a- and y-products [71]. 

Whisler, M. C. Beak, P. Synthetic applications of lithiated N-Boc allylic amines as asymmetric homoenolate equivalents./. Org. Chem. 2003, 68, 1207-1215. 

Allyl carbamates 19 are even more versatile, and the lithio derivatives 20 of allyl carbamates are the most important class of homoenolate equivalents.17 Lithiated allyl carbamates react reliably at the y-position with aldehydes and ketones but less regioselectively with alkylating and silylating agents. O-Benzyl carbamates 21 are readily deprotonated and can be quenched with electrophiles.17 20... 

Barluenga and Yus showed that reductive lithation with naphthalene was nonetheless an effective way of making functionalised organolithiums. The (3-oxygenated species such as 11 are stable below -78 °C provided the lithium is at a primary centre (above this temperature they decompose with elimination of Li20) and can be formed by reductive lithiation of the lithium alkoxide 10.22 25 The amide 12 behaves similarly,26 and protected aldehyde 14 yields homoenolate equivalent 15.27... 

Just as anions of allyl derivatives can be homoenolate equivalents (chapter 13) so anions of vinyl derivatives can be acyl anion equivalents. Vinyl (or enol) ethers can be lithiated reasonably easily, especially when there is no possibility of forming an allyl derivative, as with the simplest compound 81. The most acidic proton is the one marked and the vinyl-lithium derivative 82 reacts with electrophiles to give the enol ether of the product17 84. However, tertiary butyl lithium is needed and compounds with y-CHs usually end up as the chelated allyl-lithium 85. These vinyl-lithium compounds add directly to conjugated systems but the cuprates will do conjugate addition.18... 

Beak et al. reported that chiral homoenolate equivalents can be formed by di-lithiation of an amide and highly diastereoselective reaction with electrophiles to provide the benzylically substituted products [76]. Treatment of (S)-N-(T-phenylethyl)-3-phenylpropionamide 95 with 2.2 equivalents of sec-BuLi and TMEDA followed by addition of an electrophile affords the alkylated products 96 in 46-55% yield with 90 10-94 6 drs (Scheme 27). 

Functionalized allyllithium compounds of type XIII are also homoenolate equivalents [122,130], but in their reaction with electrophiles sometimes it is not possible to control the regioselectivity. These compounds have been prepared mainly by either deprotonation or tin-lithium exchange. Deprotonation of (F)-cinnamyl-N,N-diisopropylcarbamate 155 with n-BuLi in the presence of (-[-sparteine in toluene gave a configurationally stable lithiated O-allyl carbamate (epi-156), which equilibrates at -50 °C to give the (R)-intermediate 156. Whereas the reaction of these compounds with Mel and MeOTs gave the /-attack, however acylation, silylation and stannylation took place at the a-position (Scheme 2.21) [131]. 

In accordance with this model one finds diastereoselectively anti products on reaction of aldehydes with ( )-allyl compounds, whereas allyl systems with the (Z)-configuration give mainly syn products and it is even possible to effect asymmetric induction. As the double bond of the product can be oxidatively cleaved to a CW3 group, the reaction can be regarded as a stereoselective aldol reaction, an aspect which explains the widespread interest in this type of reaction. With heterosubstituted allylic anions it is sometimes possible to effect predominantly y-attack with different electrophiles by the choice of the heteroatom.2 For instance it is well known that with sulfur substituents like —SR, —SOR or —SOjR the a-attack dominates, but doubly lithiated allenethiol possesses high y-reactivity and can be used as a homoenolate anion equivalent in reaction with electrophiles such as alkyl halides (Scheme 7). ... 

Warren and coworkers have described the alkylation of (diphenylphosphinoyl)alkyllithiums with epoxides as an effective means of synthesizing 3-(diphenylphosphinoyl) ketones, homoenolate anion equivalents. The treatment of the adducts of lithiated phosphine oxides and epoxides with base to form cyclopropanes was reported by Toscano et al ... 

A chiral ligand mediated approach to lithiation-substitutions of allylic amines has also been well developed. Weisenburger and Beak demonstrated that lithiation of doubly protected allylic amines 141 in the presence of the chiral ligand (-)-sparteine (5), and substitution with a variety of electrophiles provided highly enantioenriched enecarbamate products 142 (Scheme 44) [100]. The authors demonstrated that the intermediate organolithium could be viewed as either an aldehyde P-homoenolate or y-lithioamine synthetic equivalent by hydrolysis or reduction and deprotection of the enecarbamates, respectively. 

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