Rhythmic activation and repression of clock gene transcription is essential for the functions of eukaryotic circadian clocks. In the Neurospora circadian oscillator, frequency (frq) transcription requires the WHITE COLLAR (WC) complex. Here, we show that the transcriptional corepressor regulation of conidiation-1 (RCO-1) is essential for clock function by regulating frq transcription. In rco-1 mutants, both overt and molecular rhythms are abolished, frq mRNA levels are constantly high, and WC binding to the frq promoter is dramatically reduced. Surprisingly, frq mRNA levels were constantly high in the rco-1 wc double mutants, indicating that RCO-1 suppresses WC-independent transcription and promotes WC complex binding to the frq promoter. Furthermore, RCO-1 is required for maintaining normal chromatin structure at the frq locus. Deletion of H3K36 methyltransferase su(var)3-9-enhancerof-zeste-trithorax-2 (SET-2) or the chromatin remodeling factor CHD-1 leads to WC-independent frq transcription and loss of overt rhythms. Together, our results uncover a previously unexpected regulatory mechanism for clock gene transcription. E ukaryotic circadian oscillators are based on autoregulatory negative feedback loops, in which positive and negative elements drive rhythmic gene expression (1-4). Despite the evolutionary distance, the circadian oscillator mechanism of the filamentous fungus Neurospora crassa is very similar to the mechanisms of animals (5-7). In Neurospora, Drosophila, and mammals, the positive elements of the circadian negative feedback loops are heterodimeric transcriptional activation complexes formed by a pair of Per-Arnt-Sim (PAS) domaincontaining transcription factors that rhythmically activate the transcription of the negative elements.In the core Neurospora circadian negative feedback loop, the positive element is the heterodimeric WHITE COLLAR (WC) complex of WC-1 and WC-2 (8-15). The WC complex binds to the promoter elements of the frequency ( frq) gene and activates its transcription. To close the negative feedback loop, FRQ and its partner FRQ-interacting RNA helicase (FRH) form a complex that inhibits transcription of frq by mediating FRQ/FRH complex-dependent WC phosphorylation, a process that inhibits WC complex activity and promotes its cytoplasmic localization (13,14,(16)(17)(18)(19)(20)(21). FRQ is progressively phosphorylated by several kinases and degraded through the ubiquitin proteasome pathway (13,(22)(23)(24). After the degradation of FRQ protein, the WC complex is reactivated, and a new cycle begins. The rhythmic activation and repression of frq transcription generate rhythmic frq mRNA levels, which are the major basis of circadian gene expression.WC-1 and WC-2 are the only previously known transcription factors required for the frq transcription. In wc-1 or wc-2 mutants, the levels of frq mRNA and FRQ protein are extremely low (11), leading to the conclusion that WC complex is the major-and perhaps, the only-regulator of frq transcription. There are two WC complex binding sites on f...
