The many faces of egg activation at fertilization

Signal transduction Pub Date : 2007-04-01 DOI:10.1002/SITA.200600122

M. Leguia, G. Wessel

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引用次数: 5

Abstract

The signaling networks controlling calcium release and cortical granule exocytosis at fertilization are complex and multilayered, providing various points for regulatory input and quality control. Though it is clear that many of the mechanisms leading to both calcium release and cortical granule exocytosis are conserved, a great deal of variability exists between homologous signaling pathways in different species. The signaling pathways responsible for the release of calcium seen at fertilization vary from species to species, yet they center around the importance of IP3-mediated signaling. Similarly, while there are differences in the mechanisms of regulated secretion between species and between intracellular membrane trafficking events, particularly with respect to time and space, all seem to be dependent on the SNARE proteins and their regulator and effector proteins. What has been most helpful in these studies is the convergence of studies from many different species of eggs. With the amazing divergence of reproductive processes and mechanisms that exists throughout phylogeny, it is comforting to see such strong overlapping roles of key players in widely disparate eggs.

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受精时卵子激活的许多方面

受精过程中控制钙释放和皮质颗粒胞吐的信号网络是复杂的、多层次的，为调控输入和质量控制提供了多种途径。虽然导致钙释放和皮质颗粒胞吐的许多机制都是保守的，但不同物种的同源信号通路之间存在很大的可变性。在施肥过程中，负责钙释放的信号通路因物种而异，但它们都以ip3介导的信号通路的重要性为中心。同样，虽然物种之间和细胞膜内转运事件之间的调节分泌机制存在差异，特别是在时间和空间方面，但似乎都依赖于SNARE蛋白及其调节和效应蛋白。在这些研究中最有帮助的是对许多不同种类的卵的研究的融合。在整个系统发育过程中存在着惊人的生殖过程和机制的差异，在广泛不同的卵子中看到如此强大的重叠角色是令人欣慰的。

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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Signal transduction

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