Zhang Ying, Levin Michael
Center for Regenerative and Developmental Biology, The Forsyth Institute, and Department of Developmental Biology, Harvard School of Dental Medicine, Boston, Massachusetts, USA.
Dev Dyn. 2009 Aug;238(8):1923-35. doi: 10.1002/dvdy.22016.
Some developmental events rely on an electrophoretic force to produce morphogenetic gradients. To quantitatively explore the dynamics of this process, we constructed a stochastic model of an early phase of left-right patterning: serotonin movement through the gap junction-coupled blastomeres of the Xenopus embryo. Particle-tracking simulations showed that a left-right gradient is formed rapidly, quickly reaching a final stable level. The voltage difference was critical for producing a morphogen gradient of the right steepness; gap junctional connectivity and morphogen mass determined the timing of the gradient. Endogenous electrophoresis drives approximately 50% of the particles across more than one cell width, and approximately 20% can travel across half the embryo. The stochastic behavior of the resulting gradients exhibited unexpected complexity among blastomeres' morphogen content, and showed how spatiotemporal variability within individual cells resulted in robust and consistent gradients across the embryonic left-right axis. Analysis of the distribution profile of gradient gain values made quantitative predictions about the conditions that result in the observed background level of laterality defects in unperturbed frog embryos. This work provides a general model that can be used to quantitatively analyze the unexpectedly complex dynamics of morphogens in a wide variety of systems.
一些发育事件依赖于电泳力来产生形态发生梯度。为了定量探索这一过程的动力学,我们构建了一个左右模式形成早期阶段的随机模型:血清素在非洲爪蟾胚胎的间隙连接耦合卵裂球中的移动。粒子追踪模拟表明,左右梯度迅速形成,很快达到最终稳定水平。电压差对于产生具有合适陡度的形态发生素梯度至关重要;间隙连接连通性和形态发生素质量决定了梯度形成的时间。内源性电泳驱动约50%的粒子跨越超过一个细胞宽度,约20%的粒子可以穿越胚胎的一半。由此产生的梯度的随机行为在卵裂球的形态发生素含量中表现出意想不到的复杂性,并展示了单个细胞内的时空变异性如何导致整个胚胎左右轴上稳健且一致的梯度。对梯度增益值分布曲线的分析对导致未受干扰的青蛙胚胎中观察到的背景侧化缺陷水平的条件进行了定量预测。这项工作提供了一个通用模型,可用于定量分析各种系统中形态发生素出人意料的复杂动力学。