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Automated Multiple Ligand Screening by Frontal Affinity Chromatography–Mass Spectrometry (FAC-MS)

Jin-Rui Dai

Jacek J. Slon-Usakiewicz

Peter R. Redden

Andrew Pasternak

Neil Reid

Transition Therapeutics, Inc., Drug Discovery Group, Toronto, Ontario

High-throughput screening (HTS) efforts to discover "hits" typically rely on the large-scale parallel screening of individual compounds with attempts to screen mixtures of compounds typically and, unfortunately, giving rise to false positives and false negatives due to the nature of the HTS readout (% inhibition/activation above a defined threshold) that makes deconvolution virtually intractable. Bioaffinity screening methods have emerged as an alternative or orthogonal method to classic HTS. One of these methods, frontal affinity chromatography coupled to mass spectrometry detection (FAC-MS), although still a relatively new technique, is turning out to be a viable screening tool. However, to push FAC-MS more to the forefront as a moderate primary HTS system (or a secondary screening assay), automation needs to be addressed. An automated FAC-MS system is described using 2 columns containing immobilized hERß, whereby while 1 column is being regenerated, the other is being used. The authors are extrapolating that in a continuous 24-h operation, the number of ligands screened could potentially approach 10,000. In addition, preliminary structure-activity relationship binding information (typically not seen in early primary HTS) can be obtained by observing the rank order of the library members in the various mixtures.

Key Words: FAC-MS • multiple ligand screening • automation • estrogen receptor

This version was published on March 1, 2007

Journal of Biomolecular Screening, Vol. 12, No. 2, 167-174 (2007)
DOI: 10.1177/1087057106297567


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