成年爬行动物替换牙齿的复原力。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Joaquin I. Henriquez, Joy M. Richman
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引用次数: 0

摘要

牙齿对动物的生存至关重要,现代脊椎动物包括长臂猿、鲨鱼、两栖动物、哺乳动物和爬行动物都有牙齿。牙齿的发育过程不仅在进化过程中得以保留,而且与其他外胚层器官的胚胎发育过程高度相似。在这篇综述中,我们将探讨牙齿发育的胚胎阶段之外的终生牙齿替换问题。我们将讨论继代牙齿的起源、假定的组织驻留干细胞的位置、新牙齿的形成如何持续一生以及牙齿如何以空间和时间可控的方式脱落。我们回顾了牙上皮是爬行动物牙齿中最早可识别的牙齿结构,它是组织驻留上皮干细胞的假定位置的证据,以及最近在爬行动物牙齿中进行的转录组学研究的分子发现。我们讨论了噬齿体如何清理萌出通道并使功能性牙齿脱落。爬行动物,尤其是蜥蜴,正在成为最容易研究牙齿替换的动物,这与牙齿的进化和人类牙齿疾病有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Resilience of the replacing dentition in adult reptiles

Resilience of the replacing dentition in adult reptiles

The dentition is critical to animal survival and teeth are present in modern vertebrates including teleost fish, sharks, amphibians, mammals and reptiles. The developmental processes that give rise to teeth are not just preserved through evolution but also share high level of similarity with the embryogenesis of other ectodermal organs. In this review we go beyond the embryonic phase of tooth development to life-long tooth replacement. We will address the origins of successional teeth, the location of putative tissue-resident stem cells, how de novo tooth formation continues throughout life and how teeth are shed in a spatially and temporally controlled manner. We review the evidence that the dental epithelium, which is the earliest recognizable dental structure in the reptilian dentition, serves as a putative niche for tissue-resident epithelial stem cells and recent molecular findings from transcriptomics carried out in reptilian dentitions. We discuss how odontoclasts resorb the primary tooth allowing eruption of the successional tooth. The reptiles, particularly lizards, are emerging as some of the most accessible animals to study tooth replacement which has relevance to evolution of the dentition and human dental disorders.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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