Sur une symétrie fondamentale entre la morphogenèse et le fonctionnement des organes arborisés

Comptes Rendus de l'Académie des Sciences - Series III - Sciences de la Vie Pub Date : 2001-05-01 DOI:10.1016/S0764-4469(01)01308-7

Vincent Fleury

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引用次数: 2

Abstract

It is generally difficult to find any relationship between the morphogenesis of an organ and its final function. A priori, such a relationship has no reason to exist, since organs do not actually function during their formation. I will show in this article that, for a very large class of organs – the branched organs – there exists a hidden relationship between their morphogenesis and their function. This class of organs comprises : the lungs, the salivary mammary and lacrymal glands, the kidneys, the pancreas, and possibly other organs, such as testes. For all these organs, a fundamental fact that comes from recent developments in physics explains at the same time how they form, and why they work. This suggests, first, that complex organs are not the result of gradual and long selection processes, and, second, that this specific structure for the organs is imposed by the laws of physics. The growth process, as described here, is possibly the only one that allows both to build a fluid-secreting organ, and make it work.

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关于形态发生和树状器官功能之间的基本对称

通常很难发现一个器官的形态发生与其最终功能之间的关系。先验地说，这种关系没有存在的理由，因为器官在形成过程中实际上并不起作用。我将在这篇文章中说明，对于一类很大的器官——分支器官——它们的形态发生和功能之间存在着一种隐藏的关系。这类器官包括:肺、唾液腺、乳腺和泪腺、肾脏、胰腺，可能还有其他器官，如睾丸。对于所有这些器官，一个来自物理学最新发展的基本事实同时解释了它们是如何形成的，以及它们为什么工作。这表明，首先，复杂的器官不是渐进和长期选择过程的结果，其次，器官的这种特殊结构是由物理定律强加的。这里所描述的生长过程，可能是唯一一种既能建立一个分泌液体的器官，又能使其发挥作用的生长过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comptes Rendus de l'Académie des Sciences - Series III - Sciences de la Vie

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