Prolinols

High anti selectivity combined with induced diastereoselectivity is also provided by the prolinol derived siloxane 5 which reacts with benzaldehyde to give predominantly the adduct 6l06h. 

The conjugate addition to acyclic enones is summarized in Table 5. The chiral hetero-cuprate derived from (S)-prolinol or cinchonidine produced products of low enantiomeric excess on treatment with chalcone (entries 3 and 4), while the cuprate from (S)-yV-methylpro-linol gave 64% ee (entry 6). Under more dilute conditions, 88% cc was obtained (entry 5). (2[Pg.909]

The second method is based on the optically active enamine formed from (S)-prolinol methyl ether and cyclohexanone. This enamine reacts spontaneously with 2-(arylmethylcnc)propane-dioates to give, after hydrolysis, the 2- (.S )-aryl[(,S )-2-oxocyclohexyllmethyl propanedioates 4 in 35-76% yield with d.r. 94 6 > 97 361. 

Iron complexes with the pentadentate ligand 3 derived from pyridyl and prolinol building blocks containing a stereogenic center were reported from the group of Klein Gebbink (Scheme 4) [34]. In alkene oxidations with hydrogen peroxide,... 

General procedure for the production of Boc-protected a,a-diaryl-L-prolinols (6). To 100 mL of a 0.42 M solution of ArMgBr in THF (0.042 mol) at 0°C was added N- t- BOC)-L-proline methyl ester (5) (3.0 mL, 0.014 mol) dropwise via syringe over a five-minute period. The solution was stirred for at least 4 h at 25°C and then cooled to 0°C. After slow addition of 3 mL of water, the solution was slowly warmed to ft with stirring. The mixture was decanted and the solid was washed with 100 mL of ethyl ether. The organics were pooled and washed with brine, dried with sodium sulfate and evaporated to yield the final compound. 

General procedure for the deprotection of Boc-protected a,a-diaryl-L-prolinol. ... 

Recently, Pal et al. found that (.S )-prolinol could facilitate the coupling reaction of terminal alkynes with 3-iodoflavone under palladium-copper catalysis in aqueous DMF to give 3-alkynyl substituted flavones of potential biological interest (Eq. 4.17). The coupling of iodobenzene with terminal alkynes at room temperature in water without any cosolvent was completed within 30 minutes, affording the desired product in good yield.36... 

Pal et al. explored an efficient Pd/C-catalyzed reaction of 2-iodophenols with terminal alkynes in water without the use of any organic cosolvents in the presence of PPh3, Cul, and prolinol to give the expected benzofuran products (Eqs. 4.42, 4.43).78 The hydroxyl group was well tolerated during reactions. When used as a base, prolinol afforded better yields of products than triethylamine, a common organic base, possibly due to its better miscibility with water. 

The 13C NMR spectrum for Experiment II appeared to consist of two sets of resonances that corresponded to Pyroglu. We speculate this is due to a Pyroglu-prolinol salt adduct. 

Amino alcohols like (iS )-prolinol react with nitroalkenes very rapidly with very high facia] selectivity.31 Rapid and stereoselective reduction of the nitro function is essential for the conversion of the products to 1,2-diamine derivatives with the retention of the configuration. Samarium diiodide is recommended in the stereoselective reduction of thermally unstable 2-aminonitroalkanes to give a range of useful 1,2-diamines (Eq. 4.26).32... 

Synthesis of 1,3,2 oxazaphospholidines 128a-c derived from (S)-prolinol 127 was based either on the thermal aminoalcoholysis of the latter with prochiral alkyl(aryl) phosphonousdiamides 51a-c or its condensation reaction with /-butylphosphonous dichloride carried out in the presence of triethylamine (Scheme 37) [68], The diastereomeric excesses of the prepared derivatives ranged from 80 to 95%. 

A similar synthesis of chiral (o-hydroxyaryl)oxazaphospholidine oxides 166a-b, 167a-b, and 169a-d derived from (5)-prolinol 127 and its diphenyl derivative 163 was achieved from precursors 164a-b, 165a-b, and 168 which were easily available from two different procedures as outlined in Scheme 46 [77], The first pathway gave the two expected diastereomers of 164 and 165 in a ratio... 

An exploration of structural modifications on the activity of prolinol catalysts has been published <06T12264>. More electron-rich aromatic rings on the prolinol scaffold improve the activity in the epoxidation of a, 3-enones. The reaction of 10 with an enone and f-BuOOH provides the epoxy-ketones with moderate levels of enantioselectivity. 

Kragl and Dreisbach reported on the asymmetric diethylzinc addition to benzaldehyde using a chiral homogeneous catalyst supported on a soluble polymethacrylate.[55] l, L-Diphenyl-L-prolinol was bound to a copolymer from 2-hydroxyethylmethacrylate and octadecylmethacrylate forming a soluble catalyst with a Mw of 96 000 (Figure 4.39). 

The condensation of 1-fluoro 4-nitrobenzene with prolinol gives NPP. Only POM is a commercial product. 

Prolinol-Type Chiral Auxiliaries. In this section, applications of chelation-enforced chirality transfers with nitrogen derivatives are discussed... 

Evans and Takacs23 demonstrated a diastereoselective alkylation based on metal ion chelation of a lithium enolate derived from a prolinol-type chiral auxiliary. This method can provide effective syntheses of a-substituted carbox-... 

In this reaction, prolinol serves as a chiral auxiliary, but it cannot be easily... 

The study of Fuji et al. shows that the addition of lithium enolate 75 to ni-troamine 74 is readily reversible quenching conditions are thus essential for getting a good yield of product 76. An equilibrium mixture of the adducts exists in the reaction mixture, and the elimination of either the prolinol or lactone moiety can take place depending on the workup condition (Scheme 2-34). A feature of this asymmetric synthesis is the direct one pot formation of the enantiomer with a high ee value. One application of this reaction is the asymmetric synthesis of a key intermediate for indole type Aspidosperma and Hun-teria alkaloids.68 Fuji69 has reviewed the asymmetric creation of quaternary carbon atoms. 

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