Lee C, Etchegaray J P, Cagampang F R, Loudon A S, Reppert S M
Department of Neurobiology, University of Massachusetts Medical School, 55 Lake Avenue North, Worcester, MA 01655, USA.
Cell. 2001 Dec 28;107(7):855-67. doi: 10.1016/s0092-8674(01)00610-9.
We have examined posttranslational regulation of clock proteins in mouse liver in vivo. The mouse PERIOD proteins (mPER1 and mPER2), CLOCK, and BMAL1 undergo robust circadian changes in phosphorylation. These proteins, the cryptochromes (mCRY1 and mCRY2), and casein kinase I epsilon (CKIepsilon) form multimeric complexes that are bound to DNA during negative transcriptional feedback. CLOCK:BMAL1 heterodimers remain bound to DNA over the circadian cycle. The temporal increase in mPER abundance controls the negative feedback interactions. Analysis of clock proteins in mCRY-deficient mice shows that the mCRYs are necessary for stabilizing phosphorylated mPER2 and for the nuclear accumulation of mPER1, mPER2, and CKIepsilon. We also provide in vivo evidence that casein kinase I delta is a second clock relevant kinase.
我们已经在体内研究了小鼠肝脏中生物钟蛋白的翻译后调控。小鼠周期蛋白(mPER1和mPER2)、CLOCK和BMAL1的磷酸化水平呈现出强劲的昼夜节律变化。这些蛋白、隐花色素(mCRY1和mCRY2)以及酪蛋白激酶Iε(CKIε)形成多聚体复合物,在负转录反馈过程中与DNA结合。CLOCK:BMAL1异二聚体在整个昼夜周期中都与DNA结合。mPER丰度的时间性增加控制着负反馈相互作用。对mCRY缺陷小鼠中生物钟蛋白的分析表明,mCRY对于稳定磷酸化的mPER2以及mPER1、mPER2和CKIε的核内积累是必需的。我们还提供了体内证据,证明酪蛋白激酶Iδ是另一种与生物钟相关的激酶。
Zotero 插件