对胚胎期肌肉活动作出反应的骨骼可塑性是鸟类栖趾发育和进化的基础。

Skeletal plasticity in response to embryonic muscular activity underlies the development and evolution of the perching digit of birds.

作者信息

Francisco Botelho João, Smith-Paredes Daniel, Soto-Acuña Sergio, Mpodozis Jorge, Palma Verónica, Vargas Alexander O

机构信息

Departamento de Biología, Facultad de Ciencias de la Universidad de Chile and FONDAP Center for Genome Regulation. Las Palmeras 3425, Santiago, Chile. 7800003.

出版信息

Sci Rep. 2015 May 14;5:9840. doi: 10.1038/srep09840.

DOI:10.1038/srep09840

PMID:25974685

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4431314/

Abstract

Most birds have an opposable digit 1 (hallux) allowing the foot to grasp, which evolved from the non-opposable hallux of early theropod dinosaurs. An important morphological difference with early theropods is the twisting of the long axis of its metatarsal. Here, we show how embryonic musculature and the onset of its activity are required for twisting of metatarsal 1 (Mt1) and retroversion of the hallux. Pharmacologically paralyzed embryos do not fully retrovert the hallux and have a straight Mt1 shaft, phenocopying the morphology of early tetanuran dinosaurs. Molecular markers of cartilage maturation and ossification show that differentiation of Mt1 is significantly delayed compared to Mt2-4. We hypothesize on how delayed maturation may have increased plasticity, facilitating muscular twisting. Our experimental results emphasize the importance of embryonic muscular activity in the evolutionary origin of a crucial adaptation.

摘要

大多数鸟类具有可对握的第1趾（拇趾），使足部能够抓握，这是从早期兽脚亚目恐龙不可对握的拇趾进化而来的。与早期兽脚亚目恐龙的一个重要形态学差异是其跖骨长轴的扭转。在这里，我们展示了胚胎肌肉组织及其活动的开始对于第1跖骨（Mt1）的扭转和拇趾的后翻是如何必需的。药物麻痹的胚胎拇趾不能完全后翻，且Mt1骨干是直的，这模拟了早期坚尾龙类恐龙的形态。软骨成熟和骨化的分子标记表明，与Mt2 - 4相比，Mt1的分化显著延迟。我们推测延迟成熟可能如何增加可塑性，促进肌肉扭转。我们的实验结果强调了胚胎肌肉活动在一种关键适应性进化起源中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62e2/4431314/f728da076881/srep09840-f1.jpg

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Skeletal plasticity in response to embryonic muscular activity underlies the development and evolution of the perching digit of birds.对胚胎期肌肉活动作出反应的骨骼可塑性是鸟类栖趾发育和进化的基础。

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对胚胎期肌肉活动作出反应的骨骼可塑性是鸟类栖趾发育和进化的基础。

Skeletal plasticity in response to embryonic muscular activity underlies the development and evolution of the perching digit of birds.

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