Reinvestigation of the Substitutions Reaction of Stereogenic Phosphoryl Compounds: Stereochemistry, Mechanism, and Applications.

Nucleophilic substitutions at P centers are of high importance in biological processes and asymmetric synthesis. However, detailed studies on this topic are rare. P-Stereogenic compounds containing P-Cl, P-O, and P-S bonds were diastereoselectively prepared and then used to study the substitution of Cl, O, and S at phosphorus centers with organometallic reagents. It was proposed that with alkynyl metallic reagents an SN2-like mechanism (route A1) and a Berry pseudorotation (BPR) of pentacoordinated phosphorus intermediates (route B1) were involved and afforded P-inverted and P-retained products, respectively. The P-inverted conversion of a P-Cl functionality to a P-C functionality can be controlled by either the temperature or the order of addition of the starting materials. The introduction of a P-Cl bond using an alkyl metallic reagent proceeded through routes A2 and A2'. At higher temperatures, P-inverted products were predominantly afforded via SN2-like route A2. At lower temperatures, bis-substituted products were formed via route A2' and cleavage of the P-O bond. The P-S bonds were accompanied by the epimerization of the starting materials, triggered by the alkylthio anion, via route C. The epimerization can be suppressed by the use of a poorly soluble magnesium alkylthiolate, and the P-retained compounds will be formed as the major products via route B3 and BPR of the intermediates.