The molecular targets for trace amines (TAs) such as p-tyramine and beta-phenylethylamine have been recently discovered and have been shown to comprise a family of G-protein-coupled receptors based on DNA sequence homologies. These have been termed trace amine-associated receptors (TAARs) because TAs do not activate all of the identified receptors. Because TA may be involved in modulating a variety of behaviors including mood, cognition, and addiction, it is of interest to discover novel ligands for TAARs to probe the role TAs play in brain function. Pharmacophore development for the G(s)-coupled human TAAR1 (hTAAR1) would be aided by a rapid functional assay amenable to screening libraries of compounds. Accordingly, the authors used RD-HGA16 CHO-1 cells from Molecular Devices, which stably express the promiscuous G(q), G(alpha16), to create a cell line stably expressing hTAAR1, thereby coupling receptor activation to the mobilization of internal calcium. They used this cell line to develop a homogenous fluorometric imaging plate reader-based assay using the Calcium 3 fluorescent dye. The EC50 and Emax data obtained for known TAs are in close agreement with previous work using transient hTAAR1 expression systems or a chimeric receptor. These data indicate that the hTAAR1 retains its reported pharmacological characteristics when coupled to G(alpha16).