《果蝇遗传学：果蝇模型系统入门》

Genetics on the Fly: A Primer on the Drosophila Model System.

作者信息

Hales Karen G, Korey Christopher A, Larracuente Amanda M, Roberts David M

机构信息

Department of Biology, Davidson College, Davidson North Carolina 28035

Biology Department, College of Charleston, Charleston, South Carolina 29424.

出版信息

Genetics. 2015 Nov;201(3):815-42. doi: 10.1534/genetics.115.183392.

DOI:10.1534/genetics.115.183392

PMID:26564900

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4649653/

Abstract

Fruit flies of the genus Drosophila have been an attractive and effective genetic model organism since Thomas Hunt Morgan and colleagues made seminal discoveries with them a century ago. Work with Drosophila has enabled dramatic advances in cell and developmental biology, neurobiology and behavior, molecular biology, evolutionary and population genetics, and other fields. With more tissue types and observable behaviors than in other short-generation model organisms, and with vast genome data available for many species within the genus, the fly's tractable complexity will continue to enable exciting opportunities to explore mechanisms of complex developmental programs, behaviors, and broader evolutionary questions. This primer describes the organism's natural history, the features of sequenced genomes within the genus, the wide range of available genetic tools and online resources, the types of biological questions Drosophila can help address, and historical milestones.

摘要

自一个世纪前托马斯·亨特·摩根及其同事利用果蝇做出开创性发现以来，果蝇属的果蝇一直是一种具有吸引力且高效的遗传模式生物。对果蝇的研究推动了细胞与发育生物学、神经生物学与行为学、分子生物学、进化与群体遗传学以及其他领域的巨大进步。与其他短世代模式生物相比，果蝇具有更多的组织类型和可观察行为，并且该属内许多物种都有大量的基因组数据，果蝇易于处理的复杂性将继续为探索复杂发育程序、行为机制以及更广泛的进化问题提供令人兴奋的机会。本入门指南介绍了该生物的自然史、该属内已测序基因组的特征、广泛可用的遗传工具和在线资源、果蝇可帮助解决的生物学问题类型以及历史里程碑。

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