ABSTRACT: The restoration of catalytic activity to mutant enzymes by small molecules is well-established for in vitro systems. Here we show that the protein tyrosine kinase Src R388A mutant can be rescued in live cells using the small molecule imidazole. Cellular rescue of a v-Src homolog was rapid and reversible and conferred predicted oncogenic properties. Using chemical rescue in combination with mass spectrometry, six known Src kinase substrates were confirmed, and several new protein targets identified. Chemical rescue data suggests that c-Src is active under basal conditions. Rescue of R388A c-Src also allowed contributions of Src to the MAP kinase pathway to be clarified. This chemical rescue approach is likely to be of broad utility in cell signaling. We were also interested in examining the impact of Src rescue on the kinetics of gene expression. Chronic gene expression changes in v-Src transformed colon cancer and NIH3T3 cells have been reported, but the chemical rescue method permits insights into rapid kinetic changes. We used gene microarray analysis of imidazole activated Src, 1 h after imidazole treatment of 8A7F cells as well as 6N7F control cells, a set of several genes show increases (>1.7-fold) at 1 h in the 8A7F cells and another set show decreases (>1.7-fold) at 1 h with minimal changes in 6N7F control cells. Thirteen of these genes were further analyzed using real-time RT-PCR and most of the genes tested showed similar changes using both techniques. These gene changes were not reported in cells chronically transformed with v-Src or rapidly stimulated with growth factors suggesting that rapid initiation of Src-mediated tyrosine phosphorylation may induce a specialized pattern of gene expression changes. However, these earlier experiments were done under different conditions which may also contribute to gene effects. Keywords: time course, cell type comparison