期刊论文详细信息
Frontiers in Neurology
Phosphorylation regulating the ratio of intracellular CRY1 protein determines the circadian period
Na Liu2  Eric Erquan Zhang2 
[1] Beijing Normal University;NIBS;
关键词: Phosphorylation;    Protein Stability;    Subcellular localization;    Cryptochrome;    Period-length;   
DOI  :  10.3389/fneur.2016.00159
来源: DOAJ
【 摘 要 】

The core circadian oscillator in mammals is composed of transcription/translation feedback loop in which cryptochrome (CRY) proteins play critical roles as repressors of their own gene expression. Although post-translational modifications such as phosphorylation of CRY1, are crucial for circadian rhythm, little is known about how phosphorylated CRY1 contributes to the molecular clockwork. To address this, we created a series of CRY1 mutants with single amino acid substitutions at potential phosphorylation sites and performed a cell-based, phenotype-rescuing screen to identify mutants with aberrant rhythmicity in CRY deficient cells. We report 10 mutants with an abnormal circadian period length, including long period (S280D and S588D), short period (S158D, S247D, T249D, Y266D, Y273D, and Y432D), and arrhythmicity (S71D and S404D). When expressing mutated CRY1 in HEK293 cells, we show that most of mutants (S71D, S247D, T249D, Y266D, Y273D, and Y432D) exhibited reduction in repression activity compared with wild-type CRY1 (WT), whereas other mutants had no obvious change. Correspondingly, these mutants also showed differences in protein stability and cellular localization. We show that most of mutants are more stable than WT, except S158D, T249D, and S280D. Although the characteristics of the 10 mutants are various, they all impair the ratio balance of intracellular CRY1 protein. Thus, we conclude that the mutations caused distinct phenotypes most likely through the ratio of functional CRY1 protein in cells.

【 授权许可】

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