The evolution of Olig genes and their roles in myelination.

Neuron glia biology Pub Date : 2008-05-01 DOI:10.1017/S1740925X09990251

Huiliang Li, William D Richardson

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引用次数: 34

Abstract

One of the special attributes of vertebrates is their myelinated nervous system. By increasing the conduction velocity of axons, myelin allows for increased body size, rapid movement and a large and complex brain. In the central nervous system (CNS), oligodendrocytes (OLs) are the myelin-forming cells. The transcription factors OLIG1 and OLIG2, master regulators of OL development, presumably also played a seminal role during the evolution of the genetic programme leading to myelination in the CNS. From the available ontogenetic and phylogenetic data we attempt to reconstruct the evolutionary events that led to the emergence of the Olig gene family and speculate about the links between Olig genes, their specific cis-regulatory elements and myelin evolution. In addition, we report a putative myelin basic protein (MBP) ancestor in the lancelet Branchiostoma floridae, which lacks compact myelin. The lancelet 'Mbp' gene lacks the OLIG1/2- and SOX10-binding sites that characterize vertebrate Mbp homologs, raising the possibility that insertion of cis-regulatory elements might have been involved in evolution of the myelinating programme.

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oliggenes的进化及其在髓鞘形成中的作用。

脊椎动物的一个特殊特征是它们有髓鞘的神经系统。髓磷脂通过增加轴突的传导速度，使体型增大，运动迅速，大脑大而复杂。在中枢神经系统(CNS)中，少突胶质细胞(OLs)是髓鞘形成细胞。转录因子OLIG1和OLIG2是OL发育的主要调控因子，可能在导致中枢神经系统髓鞘形成的遗传程序进化过程中也发挥了重要作用。根据现有的个体发育和系统发育数据，我们试图重建导致Olig基因家族出现的进化事件，并推测Olig基因及其特定顺式调控元件与髓磷脂进化之间的联系。此外，我们报道了佛罗里达Branchiostoma lancelet缺乏致密髓鞘的髓鞘碱性蛋白(MBP)祖先。鞘小细胞“Mbp”基因缺乏脊椎动物Mbp同源物特征的OLIG1/2-和sox10结合位点，这提高了顺式调控元件插入可能参与髓鞘形成程序进化的可能性。

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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Neuron glia biology 医学-神经科学

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