Circadian Genes, <i>xBmal1</i> and <i>xNocturnin</i>, Modulate the Timing and Differentiation of Somites in <i>Xenopus laevis</i> L. CurranKristen AllenLatoya Bronson PorterBrittany DodgeJoseph LopeChelsea WilladsenGail FisherRachel JohnsonNicole CampbellElizabeth VonBergenBrett WinfreyDevon HadleyMorgan KerndtThomas 2014 <div><p>We have been investigating whether <i>xBmal1</i> and <i>xNocturnin</i> play a role in somitogenesis, a cyclic developmental process with an ultradian period. Previous work from our lab shows that circadian genes (<i>xPeriod</i>1, <i>xPeriod2</i>, <i>xBmal1</i>, and <i>xNocturnin</i>) are expressed in developing somites. Somites eventually form the vertebrae, muscles of the back, and dermis. In <i>Xenopus</i>, a pair of somites is formed about every 50 minutes from anterior to posterior. We were intrigued by the co-localization of circadian genes in an embryonic tissue known to be regulated by an ultradian clock. Cyclic expression of genes involved in <i>Notch</i> signaling has been implicated in the somite clock. Disruption of <i>Notch</i> signaling in humans has been linked to skeletal defects in the vertebral column. We found that both depletion (morpholino) and overexpression (mRNA) of xBMAL1 protein (bHLH transcription factor) or xNOCTURNIN protein (deadenylase) on one side of the developing embryo led to a significant decrease in somite number with respect to the untreated side (p<0.001). These manipulations also significantly affect expression of a somite clock component (<i>xESR9</i>; p<0.05). We observed opposing effects on somite size. Depletion of xBMAL1 or xNOCTURNIN caused a statistically significant decrease in somite area (quantified using NIH ImageJ; p<0.002), while overexpression of these proteins caused a significant dose dependent increase in somite area (p<0.02; p<0.001, respectively). We speculate that circadian genes may play two separate roles during somitogenesis. Depletion and overexpression of xBMAL1 and NOCTURNIN both decrease somite number and influence expression of a somite clock component, suggesting that these proteins may modulate the timing of the somite clock in the undifferentiated presomitic mesoderm. The dosage dependent effects on somite area suggest that xBMAL1 and xNOCTURNIN may also act during somite differentiation to promote myogenesis.</p></div>