Light and Clock Expression of the Neurospora Clock Gene frequency Is Differentially Driven by but Dependent on WHITE COLLAR-2

Light and Clock Expression of the Neurospora Clock Gene frequency Is Differentially Driven by but Dependent on WHITE COLLAR-2

Michael A. Collett^a,b, Norm Garceau^a, Jay C. Dunlap^b, and Jennifer J. Loros^a,b
^a Department of Biochemistry, Dartmouth Medical School, Hanover, New Hampshire 03755 and
^b Department of Genetics, Dartmouth Medical School, Hanover, New Hampshire 03755

Corresponding author: Jennifer J. Loros, Dartmouth Medical School, Hanover, NH 03755., jennifer.loros{at}dartmouth.edu (E-mail)

Communicating editor: R. H. DAVIS

Visible light is thought to reset the Neurospora circadian clockby acting through heterodimers of the WHITE COLLAR-1 and WHITECOLLAR-2 proteins to induce transcription of the frequency gene.To characterize this photic entrainment we examined frq expressionin constant light, under which condition the mRNA and proteinof this clock gene were strongly induced. In continuous illuminationFRQ accumulated in a highly phosphorylated state similar tothat seen at subjective dusk, the time at which a step fromconstant light to darkness sets the clock. Examination of frqexpression in several wc-2 mutant alleles surprisingly revealeddifferential regulation when frq expression was compared betweenconstant light, following a light pulse, and darkness (clock-drivenexpression). Construction of a wc-2 null strain then demonstratedthat WC-2 is absolutely required for both light and clock-drivenfrq expression, in contrast to previous expectations based onpresumptive nulls containing altered Zn-finger function. Additionally,we found that frq light signal transduction differs from thatof other light-regulated genes. Thus clock and light-drivenfrq expression is differentially regulated by, but dependenton, WC-2.

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