Critical pulses of anisomycin drive the circadian oscillator inGonyaulax towards its singularity

Summary Dose and phase response curves for phase shifting the circadian oscillator in the dinoflagellateGonyaulax polyedra were measured with pulses of the antibiotic anisomycin (an inhibitor of protein synthesis on 80 S ribosomes), using the bioluminescent glow rhythm as the assay. The three dimensional surface of final phase, initial phase, and concentration was found to be a right handed helix, with the axis at a critical initial phase near circadian time 12 h, and critical concentration near 0.2 micromolar anisomycin (for 1 h pulses). The normally rhythmic glow of populations ofGonyaulax was significantly disrupted by pulses with these critical parameters, and in many instances appeared nearly arrhythmic.With increasing drug concentration, phase response curves appear to move bodily to earlier phases, and no saturation is evident in the phase shifting effect. These results are interpreted as indicating that anisomycin at sufficiently high doses causes an immediate strong (type 0) phase shift, then holds the clock stationary for a time interval that increases with concentration.the possibility that the 80 S ribosomal complex may be centrally involved in the fundamental circadian oscillation is put forward.Abbreviations DRC dose response curve - PRC phase response curve