胰岛素样肽在蠕虫、苍蝇和哺乳动物神经系统中的分化和趋同作用。

Q4 Neuroscience Invertebrate Neuroscience Pub Date : 2014-09-01 Epub Date: 2014-01-07 DOI:10.1007/s10158-013-0166-9

Hiu E Lau, Sreekanth H Chalasani

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引用次数: 11

摘要

胰岛素信号在动物生理和行为的外部变化耦合中起着关键作用。尽管胰岛素信号通路成分在物种间具有显著的保守性，但信号的机制和功能的差异是明显的。针对线虫、黑腹线虫和哺乳动物的最新发现，我们讨论了胰岛素信号在调节成年神经元功能和行为中的作用。特别是，我们描述了这三个物种的胰岛素信号的转录依赖和转录独立方面。有趣的是，我们发现在调节神经系统功能的肽作用的复杂网络的多种机制的证据。

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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Divergent and convergent roles for insulin-like peptides in the worm, fly and mammalian nervous systems.

Insulin signaling plays a critical role in coupling external changes to animal physiology and behavior. Despite remarkable conservation in the insulin signaling pathway components across species, divergence in the mechanism and function of the signal is evident. Focusing on recent findings from C. elegans, D. melanogaster and mammals, we discuss the role of insulin signaling in regulating adult neuronal function and behavior. In particular, we describe the transcription-dependent and transcription-independent aspects of insulin signaling across these three species. Interestingly, we find evidence of diverse mechanisms underlying complex networks of peptide action in modulating nervous system function.

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来源期刊

Invertebrate Neuroscience NEUROSCIENCES-

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0.00%

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审稿时长

>12 weeks

期刊介绍： Invertebrate Neurosciences publishes peer-reviewed original articles, reviews and technical reports describing recent advances in the field of invertebrate neuroscience. The journal reports on research that exploits the simplicity and experimental tractability of the invertebrate preparations to underpin fundamental advances in neuroscience. Articles published in Invertebrate Neurosciences serve to highlight properties of signalling in the invertebrate nervous system that may be exploited in the field of antiparisitics, molluscicides and insecticides. Aspects of particular interest include: Functional analysis of the invertebrate nervous system; Molecular neuropharmacology and toxicology; Neurogenetics and genomics; Functional anatomy; Neurodevelopment; Neuronal networks; Molecular and cellular mechanisms of behavior and behavioural plasticity.