WC-2在粗糙脉孢菌的PAS蛋白相关昼夜节律反馈回路中介导WC-1与FRQ的相互作用。
WC-2 mediates WC-1-FRQ interaction within the PAS protein-linked circadian feedback loop of Neurospora.
作者信息
Denault D L, Loros J J, Dunlap J C
机构信息
Departments of Biochemistry and Genetics, Dartmouth Medical School, Hanover, NH 03755, USA.
出版信息
EMBO J. 2001 Jan 15;20(1-2):109-17. doi: 10.1093/emboj/20.1.109.
Abstract
Eukaryotic circadian clocks comprise feedback loops where PAS domain-containing transcriptional activators drive gene expression of negative elements. In NEUROSPORA:, clock models posit a White Collar complex (WCC) containing WC-1 and WC-2 that activates expression of the central clock gene frequency (frq); FRQ protein is hypothesized to feed back to block the activity of the WCC. We have characterized the WC-2 protein and its role in this complex: WC-2 is an abundant constitutive nuclear protein, in contrast to rhythmically expressed FRQ and WC-1. WC-2 interacts with WC-1 and FRQ but, significantly, WC-1 and FRQ do not interact in the absence of WC-2. By quantifying the relative numbers of WC-2, FRQ and WC-1 proteins and complexes in cell extracts, both the numbers and types of complexes at different circadian times were estimated, yielding results consistent with the model. Constitutive and abundant WC-2 appears to provide a scaffold allowing for the interaction of two limiting and rhythmically out-of-phase proteins, FRQ and WC-1, and this temporal and physical relationship may be responsible for rhythmic expression of frq.
摘要
真核生物钟由反馈回路组成,其中含有PAS结构域的转录激活因子驱动负调控元件的基因表达。在粗糙脉孢菌中,生物钟模型假定存在一种包含WC-1和WC-2的白领复合体(WCC),该复合体激活核心生物钟基因频率(frq)的表达;据推测,FRQ蛋白会反馈回来阻断WCC的活性。我们已经对WC-2蛋白及其在该复合体中的作用进行了表征:与节律性表达的FRQ和WC-1不同,WC-2是一种丰富的组成型核蛋白。WC-2与WC-1和FRQ相互作用,但重要的是,在没有WC-2的情况下,WC-1和FRQ不会相互作用。通过对细胞提取物中WC-2、FRQ和WC-1蛋白及复合体的相对数量进行定量,估算了不同昼夜节律时间的复合体数量和类型,所得结果与该模型一致。组成型且丰富的WC-2似乎提供了一个支架,使得两种有限且节律不同步的蛋白FRQ和WC-1能够相互作用,这种时间和物理关系可能是frq节律性表达的原因。
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