Octopamine biosynthesis requires tyrosine decarboxylase to convert tyrosine into tyramine and tyramine beta-hydroxylase to convert tyramine into octopamine. We identified and characterized a Caenorhabditis elegans tyrosine decarboxylase gene, tdc-1, and a tyramine beta-hydroxylase gene, tbh-1. The TBH-1 protein is expressed in a subset of TDC-1-expressing cells, indicating that C. elegans has tyraminergic cells that are distinct from its octopaminergic cells. tdc-1 mutants have behavioral defects not shared by tbh-1 mutants. We show that tyramine plays a specific role in the inhibition of egg laying, the modulation of reversal behavior, and the suppression of head oscillations in response to anterior touch. We propose a model for the neural circuit that coordinates locomotion and head oscillations in response to anterior touch. Our findings establish tyramine as a neurotransmitter in C. elegans, and we suggest that tyramine is a genuine neurotransmitter in other invertebrates and possibly in vertebrates as well.
Circadian behavioral rhythms in Drosophila depend on the appropriate regulation of at least two genes, period (per) and timeless (tim). Previous studies demonstrated that levels of PER and TIM RNA cycle with the same phase and that the PER and TIM proteins interact directly. Here we show the cyclic expression of TIM protein in adult heads and report that it lags behind peak levels of TIM RNA by several hours. We alsoshow that nuclear expression of TIM depends upon the expression of PER protein. Finally, we report that the expression of TIM, but not PER, is rapidly reduced by light, suggesting that TIM mediates light-induced resetting of the circadian clock. Since both PER and TIM RNA are unaffected by light treatment, the effects of light on TIM appear to be posttranscriptional.
The cyclic expression of the period (PER) and timeless (TIM) proteins is critical for the molecular circadian feedback loop in Drosophila. The entrainment by light of the circadian clock is mediated by a reduction in TIM levels. To elucidate the mechanism of this process, the sensitivity of TIM regulation by light was tested in an in vitro assay with inhibitors of candidate proteolytic pathways. The data suggested that TIM is degraded through a ubiquitin-proteasome mechanism. In addition, in cultures from third-instar larvae, TIM degradation was blocked specifically by inhibitors of proteasome activity. Degradation appeared to be preceded by tyrosine phosphorylation. Finally, TIM was ubiquitinated in response to light in cultured cells.
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