Profen selectors

Avery recent study [128] deals with the comparison of two commercially available vancomycin-based CSPs with different surface coverage of the chiral selector in the enantioseparation of P-blockers and profens, by RP and POM separation modes. Higher retention and better resolution were obtained on the CSP with higher coverage of vancomycin in both the separation modes. However, in the case of pro fens, higher retention was not always accompanied by an improvement of the enantioselectivity in the RP mode. An accurate study of the influence of the mobile phase composition was also performed in both the separation modes. 

The application of antibiotics as chiral selectors has resulted in the successful resolution of almost all types of neutral, acidic, and basic racemic molecule. These antibiotics have been used for the enantiomeric resolution of amino acids, their derivatives, peptides, alcohols, and other pharmaceuticals. The selectivities of the most commonly used antibiotic-based (vancomycin, teicoplanin, and ristocetin A) CSPs varied from one racemate to another and are given in Table 1. Vancomycin was used for the chiral resolution of amino acids, amines, amides, imides, cyclic amines, amino alcohols, hydantoins, barbiturates, oxazolidinones, acids, profens, and other pharmaceuticals. Teicoplanin was found to be excellent chiral selector for the enantiomeric resolution of amino acids, amino alcohols, imides, peptides, hydantoins, a-hydroxy and halo acids, and oxazolidinones, whereas ristocetin A is capable of chiral resolution of amino acids, imides, amino... 

Lammerhofer and Lindner reported on the enantiomer separation of derivatized amino acids and profens on a weak-anion-exchange(WAX)-type stationary phase based on chiral quinine carbamate selectors by p-CEC [54,55]. The separations were performed either under aqueous or [54] non-aqueous conditions [55]. The efficiency obtained in the p-CEC mode was about two to three time higher than with LC using an acetonitrile/buffer flow system [54], Very high resolutions and efficiencies were found for non-aqueous p-CEC. For example, the enantiomer separation of Fmoc-leucine was achieved in less than 10 min with a resolution Rs of 6.9 at about 100 000... 

Benzyloxycarbonyl, N-(3,5-dinitrobenzyloxy carbonyl), 9-fluorenylmethoxycarbonyl, benzoyl, acetyl and N-(2,4-dinitrophenyl) derivatized amino acids and profens WAX (weak anion-exchange) type CSP tert. -butylcarbamoylquinine as chiral selector on Hypersil silica gel), 3 pm Acetonitrile-methanol (80 20)+400 mM acetic acid+4 mM triethylamine 335 mm x 100 pm i.d. 250 mm effective length, chiral separation... 

M Blanco, J Coello, H Iturriaga, S Maspoch, C Perez-Maseda. Separation of profen enantiomers by capillary electrophoresis using cyclodextrins as chiral selectors. J Chromatogr A 793 165-175, 1998. 

Commercially available silica gel plates coated with acid or basic chiral selectors [o-galacturonic acid, l-(- -)-tartaric acid, L-lactic acid, (-)-brucine] were used for the separation of racemic ephedrine, atropine, neutral amino acids, and their 3-phenyl-2-thiohydantoins (PTH) derivatives. The use of amino acids as chiral selectors involved further possibilities of enantiomer separation owing to the simultaneous presence of basic and acidic groups. In fact, L-aspartic acid, L-lysine, L-histidine, L-arginine, and L-ser-ine resolved racemic alkaloids, (3-blockers, profens, some amino acids, and their Dns derivatives. Macrocyclic antibiotics [i.e., (-)-erythromycin and (-)-vancomycin] were also used as chiral agents for the separation of enantiomeric DNs amino acids. The mechanisms of chiral recognition was investigated by Aboul-Enein, El-Awady, and Heard they hypothesized that the formation of... 

Prokhorova AF, Shapovalova EN, Shpak AV, Staroverov SM, Shpigun O. Enantiorecognition of profens by capillary electrophoresis using a novel chiral selector eremomycin. J. Cfirowalogr. A 2009 1216 3674-3677. 

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