[Control of limb morphogenesis by the Hox genes].

Y Hérault, D Duboule
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引用次数: 0

Abstract

Vertebrate limbs are an amazing example of successful adaptation to various environmental conditions. In higher vertebrates, forelimbs help to fly, swim, walk, dig or grasp, yet their basic structure (the sequence and spatial arrangement of bony elements) is always the same. This implies the existence of a unique developmental strategy for building a limb (a limb plan) that imposes early on a basic scheme, on the top of which subsequent species-specific customizations will occur. The description of such a universal limb plan, hence the idea that the genetic and developmental processes that generate this plan are very ancient, has been controversial for about a century. It is worth asking whether recent discoveries of important genes involved in these processes can bring novel arguments to the debate.

Hox基因对肢体形态发生的控制。
脊椎动物的四肢是成功适应各种环境条件的一个惊人的例子。在高等脊椎动物中,前肢有助于飞行、游泳、行走、挖掘或抓取,但它们的基本结构(骨元素的顺序和空间排列)总是相同的。这意味着存在一种独特的发展策略来构建肢体(肢体计划),它在早期强加了一个基本方案,在此基础上,随后的物种特异性定制将发生。对这种普遍的肢体规划的描述,以及由此产生这种规划的遗传和发育过程非常古老的观点,在大约一个世纪以来一直存在争议。值得一问的是,最近发现的与这些过程有关的重要基因是否能为这场辩论带来新的论据。
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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