The development of new chiral stationary phases has been very important in the a ccurate analysis of drug enantiomers and their metabolites in biological samples during drug discovery and development. New chiral stati...The development of new chiral stationary phases has been very important in the a ccurate analysis of drug enantiomers and their metabolites in biological samples during drug discovery and development. New chiral stationary phases have been d eveloped using conalbumin and flavoprotein from chicken egg whites, which have b een applied to a broad range of drug enantiomers. The application and characteri zation of these two chiral columns for high-performance liquid chromatograp hy have been documented. Both specific and non-specific interactions, based on the silica gel surface and linker moiety, influenced retention and chiral separa tion of solutes. Interactions between drug enantiomers and proteins, as a pseudo chiral stationary phase, were investigated with affinity capillary electrophore sis, in order to avoid the effects of non-specific interactions. The chiral dis crimination region for ketoprofen on the flavoprotein surface was concluded to c onsist of an α-helix structure. Studies with chemically modified flavoprot ein indicated that two types of interactions at the chiral discrimination region were required for chiral separation: a π-π interaction between a tryptophan residue and the aromatic ring of ketoprofen, and an ionic interaction between th e carboxyl group of ketoprofen and an amino and carboxyl group of the protein. I n the bod y, drugs and biologically active substances having a carboxyl group have been kn own to transform various metabolites such as acyl glucuronide. The acyl adenylat e has also been noted as a chemically active intermediate of coenzyme A ligation . Both the acyl adenylate and the acyl glucuronide produced protein adducts by r eacting with nucleophilic groups such as amino groups on protein molecules. To c haracterize both active intermediates and protein adducts, analytical techniques conferring highly selective molecular recognition, such as high-performance li quid chromatography and mass spectrometry, were required.展开更多
The chiral stationary pahse of 3,5-dimethylphenylcarbamates of cellulose chemically bonded to 3-aminopropyl silica gel at the 6-position of the glucose units was prepared.The racemates of tebuconazole were resolved on...The chiral stationary pahse of 3,5-dimethylphenylcarbamates of cellulose chemically bonded to 3-aminopropyl silica gel at the 6-position of the glucose units was prepared.The racemates of tebuconazole were resolved on the new immobilized chiral stationary phase,and the influences of modifiers(alcohols,THF and chloroform) in the mobile phase on the resolution were investigated.The chromatographic conditions were optimized.The results show that the new immobilized chiral stationary phase exhibits a good stereoselectivity to tebuconzole.The best resolution of 1.51 of tebuconazole was obtained by using hexane/2-propanol/ THF(volume ratio 90∶5∶5) as the mobile phase on a 150 mm column.展开更多
文摘The development of new chiral stationary phases has been very important in the a ccurate analysis of drug enantiomers and their metabolites in biological samples during drug discovery and development. New chiral stationary phases have been d eveloped using conalbumin and flavoprotein from chicken egg whites, which have b een applied to a broad range of drug enantiomers. The application and characteri zation of these two chiral columns for high-performance liquid chromatograp hy have been documented. Both specific and non-specific interactions, based on the silica gel surface and linker moiety, influenced retention and chiral separa tion of solutes. Interactions between drug enantiomers and proteins, as a pseudo chiral stationary phase, were investigated with affinity capillary electrophore sis, in order to avoid the effects of non-specific interactions. The chiral dis crimination region for ketoprofen on the flavoprotein surface was concluded to c onsist of an α-helix structure. Studies with chemically modified flavoprot ein indicated that two types of interactions at the chiral discrimination region were required for chiral separation: a π-π interaction between a tryptophan residue and the aromatic ring of ketoprofen, and an ionic interaction between th e carboxyl group of ketoprofen and an amino and carboxyl group of the protein. I n the bod y, drugs and biologically active substances having a carboxyl group have been kn own to transform various metabolites such as acyl glucuronide. The acyl adenylat e has also been noted as a chemically active intermediate of coenzyme A ligation . Both the acyl adenylate and the acyl glucuronide produced protein adducts by r eacting with nucleophilic groups such as amino groups on protein molecules. To c haracterize both active intermediates and protein adducts, analytical techniques conferring highly selective molecular recognition, such as high-performance li quid chromatography and mass spectrometry, were required.
文摘The chiral stationary pahse of 3,5-dimethylphenylcarbamates of cellulose chemically bonded to 3-aminopropyl silica gel at the 6-position of the glucose units was prepared.The racemates of tebuconazole were resolved on the new immobilized chiral stationary phase,and the influences of modifiers(alcohols,THF and chloroform) in the mobile phase on the resolution were investigated.The chromatographic conditions were optimized.The results show that the new immobilized chiral stationary phase exhibits a good stereoselectivity to tebuconzole.The best resolution of 1.51 of tebuconazole was obtained by using hexane/2-propanol/ THF(volume ratio 90∶5∶5) as the mobile phase on a 150 mm column.