Fluid dynamics in developmental biology: moving fluids that shape ontogeny.

Hfsp Journal Pub Date : 2009-01-01 Epub Date: 2008-12-30 DOI:10.2976/1.3043738

Julyan H E Cartwright, Oreste Piro, Idan Tuval

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引用次数: 68

Abstract

Human conception, indeed fertilization in general, takes place in a fluid, but what role does fluid dynamics have during the subsequent development of an organism? It is becoming increasingly clear that the number of genes in the genome of a typical organism is not sufficient to specify the minutiae of all features of its ontogeny. Instead, genetics often acts as a choreographer, guiding development but leaving some aspects to be controlled by physical and chemical means. Fluids are ubiquitous in biological systems, so it is not surprising that fluid dynamics should play an important role in the physical and chemical processes shaping ontogeny. However, only in a few cases have the strands been teased apart to see exactly how fluid forces operate to guide development. Here, we review instances in which the hand of fluid dynamics in developmental biology is acknowledged, both in human development and within a wider biological context, together with some in which fluid dynamics is notable but whose workings have yet to be understood, and we provide a fluid dynamicist's perspective on possible avenues for future research.

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发育生物学中的流体动力学：塑造个体发育的流动流体。

人类的受孕，实际上是受精，通常是在流体中发生的，但流体动力学在生物体随后的发育过程中起着什么作用？越来越清楚的是，一个典型生物体基因组中的基因数量不足以说明其个体发育的所有特征的细节。相反，遗传学通常起着编舞的作用，指导发展，但留下一些方面由物理和化学手段控制。流体在生物系统中无处不在，因此流体动力学在形成个体发育的物理和化学过程中发挥重要作用也就不足为奇了。然而，只有在少数情况下，才将这些股分开，以确切地了解流体力是如何引导开发的。在这里，我们回顾了在人类发展和更广泛的生物学背景下，流体动力学在发育生物学中的作用得到承认的例子，以及一些流体动力学值得注意但其作用尚待理解的例子，我们为未来的研究提供了流体动力学学家的视角。

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