Stereoselective nucleophilic substitution

Series of selenium-containing phosphorus compounds (137-139) have been reported by Kimura and Murai. Phosphinoselenoic amides 137 were prepared from racemic phosphinoselenoic chlorides (138) and chiral amines and the individual isomers could be separated by column chromatography in some cases.Reaction of 137 with tributylphosphine afforded the P(III) aminophosphines with retention of configuration at the phosphorus atom. (5)-methylbenzylamine was also used to prepare both enantiomers of phosphinoselenoic chlorides 138 in 96% ee. In contrast to the oxygen analogues, they were found to be stable and could be purified by column chromatography. Several compounds, such as 139 for example, were prepared by stereoselective nucleophilic substitutions of the Cl atom. ... 

The Peterson reaction has two more advantages over the Wittig reaction 1. it is sometimes less vulnerable to sterical hindrance, and 2. groups, which are susceptible to nucleophilic substitution, are not attacked by silylated carbanions. The introduction of a methylene group into a sterically hindered ketone (R.K. Boeckman, Jr., 1973) and the syntheses of olefins with sulfur, selenium, silicon, or tin substituents (D. Seebach, 1973 B.T. Grdbel, 1974, 1977) illustrate useful applications. The reaction is, however, more limited and time consuming than the Wittig reaction, since metallated silicon derivatives are difficult to synthesize and their reactions are rarely stereoselective (T.H. Chan, 1974 ... 

A classical reaction leading to 1,4-difunctional compounds is the nucleophilic substitution of the bromine of cf-bromo carbonyl compounds (a -synthons) with enolate type anions (d -synthons). Regio- and stereoselectivities, which can be achieved by an appropiate choice of the enol component, are similar to those described in the previous section. Just one example of a highly functionalized product (W.L. Meyer, 1963) is given. 

In stereoselective antitheses of chiral open-chain molecules transformations into cyclic precursors should be tried. The erythro-configurated acetylenic alcohol given below, for example, is disconnected into an acetylene monoanion and a symmetrical oxirane (M. A. Adams, 1979). Since nucleophilic substitution occurs with inversion of configuration this oxirane must be trens-conilgurated its precursor is commercially available trans-2-butene. 

Nucleophilic Substitution Reactions. Many of the transformations reali2ed through Michael additions to quiaones can also be achieved usiag nucleophilic substitution chemistry. In some iastances the stereoselectivity can be markedly improved ia this fashion (100), eg, ia the reaction of ben2enethiol with esters (R = CH C O) and ethers (R = 3) 1,4-naphthoquiaones. 2-Bromo-5-acetyloxy-l,4-naphthoquiQone [77189-69-6J, R = Br, yields 75% of 2-thiophenyl-5-acetyloxy-l,4-naphthoquinone [71700-93-1], R = SC H. 3-Bromo-5-methoxy-1,4-naphthoquinone [69833-10-9], R = Br, yields 82% of 3-thiophenyl-5-methoxy-l,4-naphthoquinone [112740-62-2] R = SC H. ... 

In recent years there has been a proliferation of new reactions and reagents that have been so useful in organic synthesis that often people refer to them by name. Many of these are stereoselective or regioselecth/e methods. While the expert may know exactly what the Makosza vicarious nucleophilic substitution, or the Meyers asymmetric synthesis refers to, many students as well as researchers would appreciate guidance regarding such "Name Reactions". 

Moreover it has been shown that PV0CC1 prepared by free-radical polymerization of vinyl chloroformate (V0CC1) is an atactic polymer having a Bernouillian statistical distribution as expected (J[9). In order to extend our studies on the chemical modification of PV0CC1, the stereoselective character of the nucleophilic substitution of the chloroformate units with phenol has been examined by the study of the 13c-NMR spectra of partly modified polymers in the region of the aliphatic methine carbon atoms. The results obtained in this field are presented here. 

Furthermore, a neighboring group participation of a phenylthio function is observed in the Lewis acid-catalyzed nucleophilic substitution reaction of various P-nitrosulfides. Because the P-nitrosulfides are readily available, by the Michael addition of thiols to nitroalkenes (see Michael addition Chapter 4), this reaction is very useful. The P-nitrosulfides are prepared stereoselectively, and the reaction proceeds in a stereo-specific way (retention of configuration) as shown in Eqs. 31-34.35... 

The direct, stereoselective conversion of alkynes to A-sulfonylazetidin-2-imines 16 by the initial reaction of copper(l) acetylides with sulfonyl azides, followed, in situ, by the formal [2+2] cycloaddition of a postulated A-sulfonylketenimine intermediate with a range of imines has been described <06AG(E)3157>. The synthesis of A-alkylated 2-substituted azetidin-3-ones 17 based on a tandem nucleophilic substitution followed by intramolecular Michael reaction of primary amines with alkyl 5-bromo-4-oxopent-2-enoates has been... 

Compound 874, as a representative of derivatives with an electron-withdrawing substituent at C-[1 of the vinyl group, is easily prepared by elimination of one benzotriazole from 2,2-/fo(benzotriazol-l-yl)ethyl methyl ketone 873. The stereoselective elimination catalyzed by NaOH gives exclusively the (E) isomer of derivative 874. Addition of nucleophiles to the double bond of vinyl ketone 874 followed by elimination of benzotriazole leads to a,P unsaturated ketones 875. Amines used as nucleophiles do not need any catalysis, but reactions with carbon and sulfur nucleophiles require addition of a base. The total effect is nucleophilic substitution of the benzotriazolyl group at the i-carbon of orji-iinsaturatcd ketone (Scheme 142) <1996SC3773>. 

Tetrahydropyrrolo[l,4]oxazine 74, obtained by photoinduced electron-transfer (PET) oxidative activation of substituted prolinol, undergoes nucleophilic substitution of the OH at position C-3 with allyltrimethylsilane in the presence of TiCU (Scheme 8). The reaction was highly stereoselective and produced, after hydrolysis of the resultant amide 75, optically active a-hydroxy acid 76 together with the auxiliary (.S )-prolinol that can be effectively recycled <1998TL7153>. 

Anomeric halides follow the typical reactivity order F < Cl < Br < I for nucleophilic substitutions. They have been used in stereoselective O-glycosylation, nucleophilic displacement, and carbanion as well as in radical reactions. 

When the allene moiety of 2,3-allenylamines was substituted with Br, an intramolecular nucleophilic substitution reaction led to a chiral 2,3-ds-ethynylaziridine 323. The diastereoselectivity depends on the absolute configuration of the allene moiety, i.e. typically for a matched-mismatched pair the S,aR-isomer afforded the product with much higher stereoselectivity [155, 156],... 

Borzilleri RM, Zheng X, Schmidt RJ, Johnson JA, Kim S-H, DiMarco JD, Fairchild CR, Gougoutas JZ, Lee FYF, Long BH, Vite GD. (2000) A novel application of a pd(0)-catalyzed nucleophilic substitution reaction to the regio- and stereoselective synthesis of lactam analogues of the epothilone natural products. J Am Chem Soc 122 8890-8897. 

The use of allyltributyltin in combination with a Lewis acid has been used to effect both nucleophilic substitution and stereoselective carbonyl... 

Morelli C, Duri L, Saladino A, Speranza G, Manitto P (2004) Stereoselective TiC14-promoted nucleophilic substitution at C-2 of (4S,5S)-2-alkyl-4-methyl-5-trifluoromethyl-... 

---