Zebrafish as an experimental model: strategies for developmental and molecular neurobiology studies.

Methods in cell science : an official journal of the Society for In Vitro Biology Pub Date : 2003-01-01 DOI:10.1023/B:MICS.0000006849.98007.03

Brian Key, Christine A Devine

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引用次数: 59

Abstract

Zebrafish provide a rapid and effective means for assessing gene function in the vertebrate nervous system. By employing gain- and loss-of-function techniques it is possible to obtain insights into the roles of both wild-type and heterologously expressed genes. Such approaches enable rapid progression from gene discovery to gene expression and finally to gene function even when examining development of a tissue as complex as the nervous system. Exploiting the full potential of zebrafish as a bioassay for the nervous system will require, not only an understanding of the molecular and cellular basis of normal zebrafish development, but also an appreciation of comparative processes in other species. When applied to mutant animals, classic morphological approaches and contemporary molecular genetic techniques are providing a wealth of information on the development of the nervous system at the molecular, cell, system and behavioural levels. Zebrafish are now emerging as an important tool, supporting mouse genetical approaches for understanding neural function in vertebrates.

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斑马鱼作为实验模型:发育和分子神经生物学研究的策略。

斑马鱼为评估脊椎动物神经系统的基因功能提供了一种快速有效的手段。通过使用功能获得和功能丧失技术，可以深入了解野生型和异源表达基因的作用。这种方法使得从基因发现到基因表达，最后到基因功能的快速进展成为可能，即使在检查像神经系统这样复杂的组织的发育时也是如此。利用斑马鱼作为神经系统生物检测的全部潜力，不仅需要了解正常斑马鱼发育的分子和细胞基础，还需要了解其他物种的比较过程。当应用于突变动物时，经典形态学方法和现代分子遗传学技术在分子、细胞、系统和行为水平上提供了丰富的神经系统发育信息。斑马鱼现在正在成为一个重要的工具，支持小鼠遗传学方法来理解脊椎动物的神经功能。

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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Methods in cell science : an official journal of the Society for In Vitro Biology

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