The initiation and propagation of Hes7 oscillation are cooperatively regulated by Fgf and notch signaling in the somite segmentation clock.

Niwa Y; Masamizu Y; Liu T; Nakayama R; Deng CX; Kageyama R

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The initiation and propagation of Hes7 oscillation are cooperatively regulated by Fgf and notch signaling in the somite segmentation clock.

机译：Hes7振荡的引发和传播受Sgite分割时钟中的Fgf和陷波信号共同调节。

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Periodic formation of somites is controlled by the segmentation clock, where the oscillator Hes7 regulates cyclic expression of the Notch modulator Lunatic fringe. Here, we show that Hes7 also regulates cyclic expression of the Fgf signaling inhibitor Dusp4 and links Notch and Fgf oscillations in phase. Strikingly, inactivation of Notch signaling abolishes the propagation but allows the initiation of Hes7 oscillation. By contrast, transient inactivation of Fgf signaling abolishes the initiation, whereas sustained inactivation abolishes both the initiation and propagation of Hes7 oscillation. We thus propose that Hes7 oscillation is initiated by Fgf signaling and propagated/maintained anteriorly by Notch signaling.

机译：体节的周期性形成由分段时钟控制，振荡器Hes7调节Notch调制器Lunatic条纹的循环表达。在这里，我们显示Hes7还调节Fgf信号抑制剂Dusp4的循环表达，并同相连接Notch和Fgf振荡。令人惊讶的是，Notch信号的失活消除了传播，但允许启动Hes7振荡。相比之下，Fgf信号的瞬时失活消除了启动，而持续失活消除了Hes7振荡的启动和传播。因此，我们提出Hes7振荡是由Fgf信号引发的，并由Notch信号向前传播/维持的。

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《Developmental cell》 |2007年第2期|共7页
作者
Niwa Y; Masamizu Y; Liu T; Nakayama R; Deng CX; Kageyama R;
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正文语种 eng
中图分类普通生物学;
关键词
AOD use initiation; Periodic;

机译：AOD使用启动;定期;

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1. The initiation and propagation of Hes7 oscillation are cooperatively regulated by Fgf and notch signaling in the somite segmentation clock. [J] . Niwa Y, Masamizu Y, Liu T, Developmental cell . 2007,第2期

机译：Hes7振荡的引发和传播受Sgite分割时钟中的Fgf和陷波信号共同调节。
2. Modeling the segmentation clock as a network of coupled oscillations in the Notch, Wnt and FGF signaling pathways. [J] . Goldbeter A, Pourquie O Journal of Theoretical Biology . 2008,第3期

机译：将分段时钟建模为Notch，Wnt和FGF信号通路中耦合振荡的网络。
3. Different types of oscillations in Notch and Fgf signaling regulate the spatiotemporal periodicity of somitogenesis. [J] . Niwa Y, Shimojo H, Isomura A, Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses . 2011,第11期

机译：Notch和Fgf信号传导中的不同类型的振荡调节体发生的时空周期性。
4. PREDICTION OF INITIATION AND PROPAGATION THRESHOLDS OF FARTIGUE CRACKS IN NOTCHED COMPONENTS [C] . Y. AKINIWA, K. TANAKA International Fatigue Congress . 2002

机译：缺口组分中粪便裂缝的启动和传播阈值预测
5. Roles of IL-6, TNF-a and IL-1B in Regulating Growth Hormone Signaling and FGF19 Signaling in the Liver. [D] . Zhao, Yueshui. 2014

机译：IL-6，TNF-α和IL-1B在调节肝脏中生长激素信号和FGF19信号中的作用。
6. Fgf4 maintains Hes7 levels critical for normal somite segmentation clock function [O] . Matthew J Anderson, Valentin Magidson, Ryoichiro Kageyama, 2020

机译：FGF4维护HES7对正常的SOMITE分段时钟功能至关重要
7. The Initiation and Propagation of Hes7 Oscillation Are Cooperatively Regulated by Fgf and Notch Signaling in the Somite Segmentation Clock [O] . Niwa Yasutaka, Masamizu Yoshito, Liu Tianxiao, 2007

机译：Hes7振荡的启动和传播受Sogite分段时钟中的Fgf和Notch信号共同调节。

The initiation and propagation of Hes7 oscillation are cooperatively regulated by Fgf and notch signaling in the somite segmentation clock.

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