The mammalian circadian clock proteins undergo a daily cycle of accumulation followed by phosphorylation and degradation. The mechanism by which clock proteins undergo degradation has not been fully understood. Circadian clock protein PERIOD2 (PER2) is shown to be the potential target of F-box protein beta-TrCP1, a component of ubiquitin E3 ligase. Here, we show that beta-TrCP2 as well as beta-TrCP1 target PER2 protein in vitro. We also identified beta-TrCP binding site (m2) of PER2 being recognized by both beta-TrCP1 and beta-TrCP2. Luciferase-PER2 fusion system revealed that m2 site was responsible for the stability of PER2. The role of beta-TrCP1 and beta-TrCP2 in circadian rhythm generation was analysed by real-time reporter assay revealing that siRNA-mediated suppressions of beta-TrCP1 and/or beta-TrCP2 attenuate circadian oscillations in NIH3T3 cell. beta-TrCP1-deficient mice, however, showed normal period length, light-induced phase-shift response in behaviour and normal expression of PER2, suggesting that beta-TrCP1 is dispensable for the central clock in the suprachiasmatic nucleus. Our study indicates that beta-TrCP1 and beta-TrCP2 were involved in the cell autonomous circadian rhythm generation in culture cells, although the role of beta-TrCP2 in the central clock in the suprachiasmatic nucleus remains to be elucidated.
Here we report the identification of a novel homeobox gene family Dbx in mouse, which consists of Dbx and Dbx2. The two genes share similar structural organization and are encoded by different chromosomes. The predicted Dbx and Dbx2 proteins share 85% identity in their homeodomain amino acid sequences, but otherwise showed no significant similarity. Characterization of the expression of these two genes in the embryos suggested their role in the development of the CNS. In the forebrain, Dbx is expressed in various regions, while Dbx2 showed a more restricted pattern of expression. In the midbrain, the expression domains of Dbx and Dbx2 overlap along the dorso-lateral wall of the ventricle. In the hindbrain and spinal cord, both genes are expressed in the boundary separating the basal and alar plates, which seems to correspond to the sulcus limitans. Expression of the Dbx/Dbx2 genes is restricted to the ventricular region of the embryonic CNS except for that of Dbx in the septum of the telencephalon. Together these observations indicate possible participation of the members of the Dbx family in regionalization of the CNS. While the expression of Dbx was restricted to the CNS, Dbx2 was also expressed in some of the mesenchymal cells, such as limb buds and tooth germs.
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