The Eye Specification Network in Drosophila.

Proceedings of the Indian National Science Academy. Part B, Biological sciences Pub Date : 2004-01-01

Brandon P Weasner, Jason Anderson, Justin P Kumar

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Abstract

One of the most exciting revelations in retinal biology is the realization that the molecules and mechanisms that regulate eye development have been conserved in all seeing animals including such diverse organisms as the fruit fly, mouse and man. The emerging commonality among mechanisms used in eye development allows for the use of model systems such as the fruit fly, Drosophila melanogaster, to provide key insights into the development and diseases of the mammalian eye. Eye specification in Drosophila is controlled, in part, by the concerted activities of eight nuclear proteins and several signal transduction cascades that together form a tightly woven regulatory network. Loss of function mutations in several components lead to the complete derailment of eye development while ectopic expression of threse genes in non-retinal tissues can direct the fates of these tissues towards eye formation. Here we will describe what is currently known about this remarkable regulatory cassettee highlight some of the outstanding questions that still need to be answered.

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果蝇的眼睛规格网络。

视网膜生物学中最令人兴奋的发现之一是，在所有能看见的动物中，包括果蝇、老鼠和人类在内，调节眼睛发育的分子和机制都是保守的。眼睛发育机制中出现的共性允许使用模型系统，如果蝇，黑腹果蝇，为哺乳动物眼睛的发育和疾病提供关键见解。果蝇的眼睛功能在一定程度上是由8种核蛋白和几个信号转导级联的协同活动控制的，它们共同形成了一个紧密编织的调节网络。一些成分的功能突变缺失导致眼睛发育完全脱轨，而三个基因在非视网膜组织中的异位表达可以指导这些组织的命运走向眼睛的形成。在这里，我们将描述目前对这一非凡的监管盒式磁带的了解，突出一些仍需要回答的悬而未决的问题。

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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Proceedings of the Indian National Science Academy. Part B, Biological sciences

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