Abstract
Phosphorylation is a major regulatory mechanism controlling circadian clocks. In the Neurospora circadian clock, the PER-ARNT-SIM (PAS) domain-containing transcription factor, WHITE COLLAR (WC)-1, acts both as the blue light photoreceptor of the clock and as a positive element in the circadian negative feedback loop in constant darkness, by activating the transcription of the frequency (frq) gene. To understand the role of WC-1 phosphorylation, five in vivo WC-1 phosphorylation sites, located immediately downstream of the WC-1 zinc finger DNA binding domain, were identified by tandem mass spectrometry using biochemically purified endogenous WC-1 protein. Mutations of these phosphorylation sites suggest that they are major WC-1 phosphorylation sites under constant conditions but are not responsible for the light-induced hyperphosphorylation of WC-1. Although phosphorylation of these sites does not affect the light function of WC-1, strains carrying mutations of these sites show short period, low amplitude, or arrhythmic conidiation rhythms in constant darkness. Furthermore, normal or slightly higher levels of frq mRNA and FRQ proteins were observed in a mutant strain containing mutations of all five sites despite its low WC-1 levels. Together, these data suggest that phosphorylation of these sites negatively regulates the function of WC-1 in the circadian negative feedback loop and is important for the function of the Neurospora circadian clock.
Highlights
Eukaryotic circadian oscillators consist of autoregulatory transcription/translation-based negative feedback loops [1, 2]
Identification of Five in Vivo WHITE COLLAR (WC)-1 Phosphorylation Sites by Tandem Mass Spectrometry—Previously, we created a Neurospora strain (Myc-His-WC-2) in which WC-2 was tagged by both c-Myc and His6 epitope tags [22]
We showed that the Myc-His-WC-2 can form a functional complex with WC-1 and can rescue the light and circadian clock defects of a wc-2-null strain
Summary
Eukaryotic circadian oscillators consist of autoregulatory transcription/translation-based negative feedback loops [1, 2]. Mutation of these phosphorylation sites showed that they are not required for the light function of the protein, they negatively regulate the activity of WC-1 in the dark and are important for the function of the circadian clock.
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