1992
DOI: 10.1073/pnas.89.22.10862
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Stopping the circadian pacemaker with inhibitors of protein synthesis.

Abstract: The requirement for protein synthesis in the mechanism of a circadian pacemaker was investigated by using inhibitors of protein synthesis. Continuous treatment of the ocular circadian pacemaker ofthe mollusc Budagouddiana with anisomycin or cycloheximide substantially lengthened (up to 39 and 52 hr, respectively) the free-running period of the rhythm.To determine whether high concentrations of inhibitor could stop the pacemaker, long pulse treatments of various durations (up to 44 hr) were applied and the subs… Show more

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Cited by 57 publications
(31 citation statements)
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“…Chronic treatment with transcription inhibitors might be expected to stop such a clock at or near to subjective dawn, about 180 • out of phase with the expectation for a Drosophila-like clock. In Gonyaulax, Aplysia, Bulla, and hamsters, in addition to Neurospora, the sensitive phase for transcription and/or translation inhibitors is in the late night to early morning, and where examined the clocks are seen to stop near to subjective dawn (21,23,52,92,102). Albeit with the caveats stated above, these data strongly suggest that a morning/day phased clock of the type seen in Neurospora may be widespread phylogenetically.…”
Section: The Ways In Which Evolutionary Questions Need To Be Answeredmentioning
confidence: 66%
See 1 more Smart Citation
“…Chronic treatment with transcription inhibitors might be expected to stop such a clock at or near to subjective dawn, about 180 • out of phase with the expectation for a Drosophila-like clock. In Gonyaulax, Aplysia, Bulla, and hamsters, in addition to Neurospora, the sensitive phase for transcription and/or translation inhibitors is in the late night to early morning, and where examined the clocks are seen to stop near to subjective dawn (21,23,52,92,102). Albeit with the caveats stated above, these data strongly suggest that a morning/day phased clock of the type seen in Neurospora may be widespread phylogenetically.…”
Section: The Ways In Which Evolutionary Questions Need To Be Answeredmentioning
confidence: 66%
“…Although data speaking to this question are relatively few, the nearly universal observation from organisms ranging from Gonyaulax (23), Neurospora (21), Aplysia (92), Bulla (52), and hamsters (102) that circadian clocks show time-of-day-specific sensitivity to inhibitors of transcription and/or translation (reviewed in 6, 92) may make strong predictions if interpreted correctly. There are abundant caveats to these data, but (a) if the effects of the inhibitors on the clock are really due to the inhibition of the respective processes and (b) if the phases in the clock cycle at which inhibitors cause phase shifts can be interpreted as the times when essential clock proteins must be synthesized, then one could infer when in the clock cycle the critical protein(s) was being made.…”
Section: The Ways In Which Evolutionary Questions Need To Be Answeredmentioning
confidence: 95%
“…Unfortunately, at other phases (e.g. CT 18-24), protein synthesis inhibitors cause phase shifts in the ocular rhythm and protein synthesis may even be part of the basic oscillator mechanism (Rothman and Strumwasser 1976;Jacklet 1977Jacklet , 1980Lotshaw and Jacklet 1986;Yeung and Eskin 1988;Khalsa et al 1992). Thus, it is not clear whether protein synthesis is generally required to phase shift the ocular rhythm.…”
Section: Discussionmentioning
confidence: 92%
“…These experiments showed that rhythmicity relies on transcription and translation only in a phase-dependent manner [99,100]. These experiments were only recently repeated in the unicellular green alga O. tauri [5], for which transcription and translation were found to be dispensable during significant parts of the cycle.…”
Section: Box 2 a Short History Of Non-transcriptional Timekeepingmentioning
confidence: 90%