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lüll Post-transcriptional control of circadian rhythms Kojima S; Shingle DL; Green CBJ Cell Sci 2011[Feb]; 124 (Pt 3): 311-20Circadian rhythms exist in most living organisms. The general molecular mechanisms that are used to generate 24-hour rhythms are conserved among organisms, although the details vary. These core clocks consist of multiple regulatory feedback loops, and must be coordinated and orchestrated appropriately for the fine-tuning of the 24-hour period. Many levels of regulation are important for the proper functioning of the circadian clock, including transcriptional, post-transcriptional and post-translational mechanisms. In recent years, new information about post-transcriptional regulation in the circadian system has been discovered. Such regulation has been shown to alter the phase and amplitude of rhythmic mRNA and protein expression in many organisms. Therefore, this Commentary will provide an overview of current knowledge of post-transcriptional regulation of the clock genes and clock-controlled genes in dinoflagellates, plants, fungi and animals. This article will also highlight how circadian gene expression is modulated by post-transcriptional mechanisms and how this is crucial for robust circadian rhythmicity.|Alternative Splicing/physiology[MESH]|Animals[MESH]|Circadian Clocks/*physiology[MESH]|Circadian Rhythm/*physiology[MESH]|Dinoflagellida[MESH]|Drosophila[MESH]|Exosomes/physiology[MESH]|Feedback, Physiological[MESH]|Gene Expression Regulation[MESH]|MicroRNAs/physiology[MESH]|Neurospora[MESH]|Plants[MESH]|Protein Processing, Post-Translational/*physiology[MESH]|RNA Processing, Post-Transcriptional/*physiology[MESH]|RNA Stability/physiology[MESH] |