The regeneration blastema of lizards: an amniote model for the study of appendage replacement.

Regeneration (Oxford, England) Pub Date : 2015-05-11 eCollection Date: 2015-04-01 DOI:10.1002/reg2.31

E A B Gilbert, S L Delorme, M K Vickaryous

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引用次数: 41

Abstract

Although amniotes (reptiles, including birds, and mammals) are capable of replacing certain tissues, complete appendage regeneration is rare. Perhaps the most striking example is the lizard tail. Tail loss initiates a spontaneous epimorphic (blastema-mediated) regenerative program, resulting in a fully functional but structurally non-identical replacement. Here we review lizard tail regeneration with a particular focus on the blastema. In many lizards, the original tail has evolved a series of fracture planes, anatomical modifications that permit the tail to be self-detached or autotomized. Following tail loss, the wound site is covered by a specialized wound epithelium under which the blastema develops. An outgrowth of the spinal cord, the ependymal tube, plays a key role in governing growth (and likely patterning) of the regenerate tail. In some species (e.g., geckos), the blastema forms as an apical aggregation of proliferating cells, similar to that of urodeles and teleosts. For other species (e.g., anoles) the identification of a proliferative blastema is less obvious, suggesting an unexpected diversity in regenerative mechanisms among tail-regenerating lizards.

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蜥蜴再生囊胚:用于研究附属物置换的羊膜模型。

虽然羊膜动物(爬行动物，包括鸟类和哺乳动物)能够替换某些组织，但完全再生附属物是罕见的。也许最显著的例子是蜥蜴的尾巴。尾巴的缺失启动了一个自发的外胚(胚基介导)再生程序，导致一个功能齐全但结构不相同的替代。在这里，我们回顾了蜥蜴尾巴再生，特别关注胚芽。在许多蜥蜴身上，原始的尾巴已经进化出了一系列的断裂面，解剖上的改变使尾巴能够自我分离或自动化。在尾巴脱落后，伤口部位被一层特殊的伤口上皮覆盖，在这层上皮下胚质发育。脊髓的一个分支，室管膜管，在控制再生尾巴的生长(和可能的模式)中起着关键作用。在某些物种(如壁虎)中，胚芽形成为增殖细胞的顶端聚集，类似于尾尾动物和硬骨鱼。对于其他物种(如变色蜥蜴)，增殖囊胚的鉴定不太明显，这表明在尾巴再生蜥蜴的再生机制中存在意想不到的多样性。

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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Regeneration (Oxford, England)

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