The natural history of the myelin-derived nerve growth inhibitor Nogo-A.

Rüdiger Schweigreiter
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引用次数: 13

Abstract

Nogo-A is possibly the best characterized myelin-derived inhibitor of nerve growth in the adult central nervous system (CNS). It is a member of the ancient reticulon family of mainly endoplasmic reticulum resident proteins with representatives found throughout the eukaryotic domain. Orthologs of the nogo gene were identified in tetrapods and teleost fish but none have been detected in invertebrates. Evolution of the nogo gene has been non-homogeneous. The exon-intron arrangement is conserved from amphibians (Xenopus) to mammals, but partly deviates from that found in several teleost fish species, indicating that the recruitment of nogo exons proceeded along at least two independent lines during early vertebrate evolution. This might have far-reaching consequences. Tetrapod nogo orthologs encode two neurite growth inhibitory domains whereas in fish nogo only one of the inhibitory domains is present. These distinct paths in nogo evolution have potentially contributed to the regeneration permissive CNS in fish as opposed to the non-regenerating CNS in higher vertebrates.

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髓鞘源性神经生长抑制剂Nogo-A的自然历史。
Nogo-A可能是成人中枢神经系统(CNS)中最具特征的髓鞘衍生神经生长抑制剂。它是一个古老的网状蛋白家族的成员,主要是内质网驻留蛋白,在整个真核生物领域都有代表。在四足动物和硬骨鱼中发现了nogo基因的同源物,但在无脊椎动物中没有发现。nogo基因的进化是非同质的。从两栖动物(爪蟾)到哺乳动物,外显子-内含子的排列都是保守的,但在某些硬骨鱼物种中发现的排列部分偏离,这表明在早期脊椎动物进化中,nogo外显子的招募至少沿着两条独立的路线进行。这可能会产生深远的影响。四足动物nogo同源物编码两个神经突生长抑制域,而nogo鱼只有一个抑制域存在。在nogo进化中,这些不同的路径可能有助于鱼类的再生许可中枢神经系统,而不是高等脊椎动物的非再生中枢神经系统。
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Neuron glia biology
Neuron glia biology 医学-神经科学
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