[Developmental genes].

F Gros
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Abstract

In the present review article, we have attempted to define and class the so called "developmental genes". This designation applies to genes whose activity is involved in lineage determination, in differentiation pathways or in the modes of tissue or organ formation. A special emphasis has been given to genes controlling the body plan in the course of development. Three main subclasses of such genes are described: genes involved in very early development by establishing the anteroposterior or dorso-ventral axes of the embryo (or of the insect larva); segmentation genes; homeotic genes containing an homeodomain (HD) motif and homeotic-related genes (with a "LIM" or "PAX" motif). While classical (HD containing) homeotic genes were initially discovered and studied in drosophila, their general occurrence in many other species, particularly in vertebrates was soon reported. They are characterized phylogenetically speaking, by a high degree of sequence similarities and chromosomal organization, although their number appears much greater in vertebrates than in insects due to successive duplication and chromosomal distribution events. In vertebrates they are essentially involved in the development of the central nervous system. Large varieties of genes with "LIM" or "PAX" motifs have been reported, and many subclasses can be distinguished depending upon the presence or absence of distinct peptidic motifs within the genes under concern. The peptidic domains encoded by the LIM motifs include "Zn finger" containing varieties which are involved in protein-protein interactions. The roles of genes with a LIM motif vary according to the type of sub-variety (organization of the central nervous system; axonal distribution of peripheric nerves at distinct levels of the spinal cord, control of tissue differentiation, etc.). "Pax" genes include a DNA binding domain (encoded by the "paired" motif) with variable sequences and organization, which is sometime in the vicinity of an homeodomain. Generally speaking "Pax" genes behave like controlling elements in the development of the brain or of tissues derived from the neural crest.

发育的基因。
在这篇综述文章中,我们试图对所谓的“发育基因”进行定义和分类。该名称适用于其活性参与谱系决定,分化途径或组织或器官形成模式的基因。特别强调在发育过程中控制身体计划的基因。这些基因的三个主要亚类被描述为:通过建立胚胎(或昆虫幼虫)的前后轴或背腹轴参与非常早期发育的基因;分割的基因;含有同源结构域(HD)基序和同源相关基因(带有“LIM”或“PAX”基序)的同源基因。虽然经典(含HD)同源基因最初是在果蝇中发现和研究的,但它们在许多其他物种,特别是脊椎动物中的普遍存在很快被报道。从系统发育的角度来看,它们的特征在于高度的序列相似性和染色体组织,尽管由于连续的重复和染色体分布事件,它们在脊椎动物中的数量似乎比在昆虫中多得多。在脊椎动物中,它们基本上与中枢神经系统的发育有关。已经报道了大量具有“LIM”或“PAX”基序的基因,并且可以根据相关基因中存在或不存在不同的肽基序来区分许多亚类。由LIM基序编码的肽结构域包括“锌指”,其中包含参与蛋白质-蛋白质相互作用的品种。具有LIM基序的基因的作用根据中枢神经系统亚品种组织的类型而变化;外周神经在脊髓不同水平的轴突分布,组织分化的控制等)。“Pax”基因包括一个具有可变序列和组织的DNA结合域(由“配对”基序编码),有时在同源结构域附近。一般来说,“Pax”基因的行为就像大脑或神经嵴衍生组织发育中的控制因素。
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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