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Conditioned enhancement of the rat eyeblink reflex was studied using as a response measure the electromyogram (EMG) in the orbicularis oculi (oo) muscle, which is responsible for the active force generating eyelid closure. During a reflex eyeblink, the EMG evidences both a short-latency (R1) and a long-latency (R2) component, mediated by different circuits. The R2 response exhibits several experience- or use-dependent modifications. We were interested in the modifiability of the neurophysiologically simpler R1 response. Experiments were designed to determine whether the R1 response can be enhanced by a conditioned stimulus (CS) that has been explicitly paired with an aversive unconditioned stimulus (US). The R1 response was elicited by electrical stimulation of the supraorbital branch of the trigeminal nerve. Following long-delay conditioning, the CS produced a significant R1 enhancement and latency decrease that were dependent upon explicit CS-US pairings. The CS by itself produced no significant EMG response, consistent with a modulatory rather than additive effect. This is the first demonstration that the R1 response can be associatively modulated. Based on other evidence, we hypothesize that the CS-produced enhancement results from a relatively direct projection from the amygdala to the R1 circuit. As an index of aversive conditioning, R1 enhancement may prove to be a useful expression system because it offers high temporal resolution and the underlying circuitry is relatively simple-the shortest path from the fifth nerve to the muscle consisting of only two central synapses.