Max Planck Institute of Molecular Cell Biology and Genetics, Dresden, Germany.
PLoS Biol. 2012;10(7):e1001364. doi: 10.1371/journal.pbio.1001364. Epub 2012 Jul 24.
During vertebrate embryogenesis, the rhythmic and sequential segmentation of the body axis is regulated by an oscillating genetic network termed the segmentation clock. We describe a new dynamic model for the core pace-making circuit of the zebrafish segmentation clock based on a systematic biochemical investigation of the network's topology and precise measurements of somitogenesis dynamics in novel genetic mutants. We show that the core pace-making circuit consists of two distinct negative feedback loops, one with Her1 homodimers and the other with Her7:Hes6 heterodimers, operating in parallel. To explain the observed single and double mutant phenotypes of her1, her7, and hes6 mutant embryos in our dynamic model, we postulate that the availability and effective stability of the dimers with DNA binding activity is controlled in a "dimer cloud" that contains all possible dimeric combinations between the three factors. This feature of our model predicts that Hes6 protein levels should oscillate despite constant hes6 mRNA production, which we confirm experimentally using novel Hes6 antibodies. The control of the circuit's dynamics by a population of dimers with and without DNA binding activity is a new principle for the segmentation clock and may be relevant to other biological clocks and transcriptional regulatory networks.
在脊椎动物胚胎发生过程中,体轴的有节奏和顺序分段由一个称为分段时钟的振荡遗传网络调节。我们根据对网络拓扑的系统生化研究和对新型遗传突变体体节发生动力学的精确测量,为斑马鱼分段时钟的核心计时电路建立了一个新的动态模型。我们表明,核心计时电路由两个不同的负反馈回路组成,一个由 Her1 同源二聚体组成,另一个由 Her7:Hes6 异源二聚体组成,它们平行运行。为了解释我们的动态模型中 her1、her7 和 hes6 突变体胚胎的观察到的单突变和双突变表型,我们假设具有 DNA 结合活性的二聚体的可用性和有效稳定性受到“二聚体云”的控制,该云包含三个因素之间所有可能的二聚体组合。该模型的这一特征预测,尽管 hes6 mRNA 持续产生,但 Hes6 蛋白水平应该会振荡,我们使用新型 Hes6 抗体通过实验证实了这一点。具有和不具有 DNA 结合活性的二聚体群体对电路动力学的控制是分段时钟的一个新原理,可能与其他生物钟和转录调控网络有关。
