黑腹果蝇视觉转导的遗传研究。

W. Pak, H. Leung
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引用次数: 43

摘要

由于我们对果蝇光转导的了解几乎都来自于基于遗传方法的研究,因此本综述首先讨论遗传方法。然后,我们简要介绍果蝇的光转导(果蝇光转导:概述一节),然后更详细地介绍转导机制的各个组成部分(光转导机制的组成部分)。在三个标题下讨论了转导机制:通道激发的机制,转导蛋白的组织和光转导的调节机制。也许这一领域最重要的未解之谜是转导通道的激活和调控机制。这个问题在通道激励机制一节中进行了探讨。至少有两种蛋白的鉴定是完全出乎意料的:视紫红质伴侣蛋白(ninaA)和信号复合物支架蛋白(INAD)。它们分别在Rh1视蛋白对伴侣蛋白的要求和:信号复合物的形成章节中进行了讨论。这一领域的重要进展之一是发现了许多在果蝇中发现的蛋白质的哺乳动物同源物。光激活通道蛋白(trp)的哺乳动物同源物在trp的哺乳动物同源物一节中简要讨论了其中研究最广泛的一种,即光激活通道蛋白(trp)的哺乳动物同源物。我们以展望作为总结,简要介绍了该领域的现状和未来展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic approaches to visual transduction in Drosophila melanogaster.
Because almost everything we know about Drosophila phototransduction has come from studies based on genetic approaches, this review begins with a discussion of genetic approaches. We then present a brief overview of Drosophila phototransduction (section on Drosophila phototransduction: an overview) followed by a more detailed treatment of individual components of the transduction machinery (section on Components of the phototransduction machinery). Discussion of transduction mechanisms is presented under three headings: Mechanism(s) of channel excitation, Organization of the transduction proteins, and Regulatory mechanisms in phototransduction. Perhaps the most important unanswered question in this field is the mechanism(s) of activation and regulation of transduction channels. This question is explored in the section entitled Mechanism(s) of channel excitation. Identification of at least two of the proteins discussed was totally unexpected: the rhodopsin chaperone protein, ninaA, and the signal complex scaffold protein, INAD. They are discussed in the sections titled Requirement for a chaperone protein for Rh1 opsin, and: Formation of signaling complexes, respectively. One of the important developments in this field has been the discovery of mammalian homologs of many of the proteins identified in Drosophila. A brief discussion of the most extensively studied of these, the mammalian homologs of light-activated channel protein, trp, is presented in the section on Mammalian Homologs of trp. We conclude the review with Perspective, a brief look at the current status and the future outlook of the field.
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