棘皮动物的机械适应性结缔组织：其在应用技术和生态学中生物创新的潜力。

The mechanically adaptive connective tissue of echinoderms: its potential for bio-innovation in applied technology and ecology.

机构信息

Biology Dept., University of Milan, via Celoria 26, 20133 Milano, Italy.

出版信息

Mar Environ Res. 2012 May;76:108-13. doi: 10.1016/j.marenvres.2011.07.006. Epub 2011 Aug 4.

DOI:10.1016/j.marenvres.2011.07.006

Abstract

Echinoderms possess unique connective tissues, called mutable collagenous tissues (MCTs), which undergo nervously mediated, drastic and reversible or irreversible changes in their mechanical properties. Connective tissue mutability influences all aspects of echinoderm biology and is a key-factor in the ecological success of the phylum. Due to their sensitivity to endogenous or exogenous agents, MCTs may be targets for a number of common pollutants, with potentially drastic effects on vital functions. Besides its ecological relevance, MCT represents a topic with relevance to several applied fields. A promising research route looks at MCTs as a source of inspiration for the development of novel biomaterials. This contribution presents a review of MCT biology, which incorporates recent ultrastructural, biomolecular and biochemical analyses carried out in a biotechnological context.

摘要

棘皮动物拥有独特的结缔组织，称为可变性胶原组织（MCT），其机械性能会发生神经介导的剧烈且可逆或不可逆的变化。结缔组织的可变性会影响棘皮动物生物学的各个方面，是该门成功的关键因素。由于 MCT 对内源性或外源性物质敏感，因此可能成为许多常见污染物的靶标，对重要功能可能产生剧烈影响。除了其生态相关性外，MCT 还代表了与多个应用领域相关的主题。一条很有前途的研究途径是将 MCT 视为开发新型生物材料的灵感来源。本贡献综述了 MCT 的生物学，其中包含了在生物技术背景下进行的最新超微结构、生物分子和生物化学分析。

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棘皮动物的机械适应性结缔组织：其在应用技术和生态学中生物创新的潜力。

The mechanically adaptive connective tissue of echinoderms: its potential for bio-innovation in applied technology and ecology.

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