This paper describes the application of stereoselective antibodies as tailor-made chiral selectors for the separation of enantiomers in HPLC under isocratic conditions. Stereoselective monoclonal antibodies to D- and L-alpha-amino acids, raised against protein conjugates of p-amino-D- and L-phenylalanine, were immobilized on a synthetic high-flow-through support material and used for rapid enantiomer separation of a number of amino acids at flow rates between 0.1 and 10 mL/min. Since separations could be performed in a mild buffer, column lifetime considerably exceeded that of classical immunoaffinity systems. Using an anti-D-amino acid antibody as chiral selector, the L-enantiomers eluted with the void volume, while the D-enantiomers eluted second. Inverted elution orders were obtained on chiral stationary phases prepared from an anti-L-amino acid antibody. These results demonstrate, for the first time, that antibody-based chiral stationary phases are useful for routine enantiomer separation under true high-performance chromatographic conditions.
This article describes the production of stereoselective antibodies using both classical immunological and modern molecular biological techniques. Stereoselective antibodies against alpha-hydroxy acids were raised in rabbits and mice and compared with previously produced anti-alpha-amino acid antibodies. It was found that both types of antibodies combine stereoselectivity with class-specificity. Sequence analyses revealed that antibodies with opposing stereoselectivities can be formed during the affinity maturation process from a common progenitor or independently using nonhomologous binding sites. For the first time, phage display was employed to obtain stereoselective antibody fragments. The versatility of stereoselective antibodies as chiral selectors was demonstrated by applying them in several immunosensors and in chiral chromatography. A simple, membrane-based optical sensor allowed detection of enantiomeric impurities at the 1/2,000 level (99.9% ee). Silica-based antibody chiral stationary phases could be used for enantiomer separation of aliphatic amino acids in standard-sized columns, while miniaturized columns allowed interfacing with an MS-detector.
The effect of the mobile phase parameters flow rate, temperature, pH and ionic strength, as well as the addition of various organic modifiers on the enantiomer separation of various aromatic alpha-amino acids was investigated using two antibody-based chiral stationary phases that have opposing stereoselectivity. On both columns, a decrease in flow rate or temperature resulted in increased interaction with the retained enantiomer. It was found that the retention factor k2 depends on the affinity between the analyte and the immobilized antibody and is not independent of the flow rate. Optimum separations of all amino acids investigated were obtained at pH 7.4 on both columns. While increased k2 values were obtained at low ionic strength on the anti-D-amino acid antibody column, no such effect was observed on the anti-L-amino acid antibody column. The addition of organic modifiers did not improve separations. In all studies, the unretained enantiomer eluted with the void volume.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.