Intermittent exposure to addictive drugs causes long-lasting changes in responsiveness to these substances due to persistent molecular and cellular alterations within the meso-corticolimbic system. In this report, we studied the expression profiles of 159 genes in the rat nucleus accumbens during morphine exposure (14 days, 10 mg/kg s.c.) and drug-abstinence (3 weeks). We used real-time quantitative PCR to monitor gene expression after establishing its sensitivity and resolution to resolve small changes in expression for genes in various abundance classes. Morphine-exposure (5 time points) and subsequent abstinence (6 time points) induced phase-specific temporal gene expression of distinct functional groups of genes, for example, short-term homeostatic responses. Opiate withdrawal appeared to be a new stimulus in terms of gene expression and mediates a marked wave of gene repression. Prolonged abstinence resulted in persistently changed expression levels of genes involved in neuronal outgrowth and re-wiring. Our findings substantiate the hypothesis that this new gene program, initiated upon morphine-withdrawal, may subserve long-term neuronal plasticity involved in the persistent behavioral consequences of repeated drug-exposure.