通过选择性剪接调控神经元的分化、功能和可塑性。
Regulation of Neuronal Differentiation, Function, and Plasticity by Alternative Splicing.
机构信息
Biozentrum, University of Basel, 4056 Basel, Switzerland; email:
出版信息
Annu Rev Cell Dev Biol. 2018 Oct 6;34:451-469. doi: 10.1146/annurev-cellbio-100617-062826. Epub 2018 Jul 20.
Abstract
Posttranscriptional mechanisms provide powerful means to expand the coding power of genomes. In nervous systems, alternative splicing has emerged as a fundamental mechanism not only for the diversification of protein isoforms but also for the spatiotemporal control of transcripts. Thus, alternative splicing programs play instructive roles in the development of neuronal cell type-specific properties, neuronal growth, self-recognition, synapse specification, and neuronal network function. Here we discuss the most recent genome-wide efforts on mapping RNA codes and RNA-binding proteins for neuronal alternative splicing regulation. We illustrate how alternative splicing shapes key steps of neuronal development, neuronal maturation, and synaptic properties. Finally, we highlight efforts to dissect the spatiotemporal dynamics of alternative splicing and their potential contribution to neuronal plasticity and the mature nervous system.
摘要
转录后机制为扩展基因组的编码能力提供了强有力的手段。在神经系统中,选择性剪接不仅是蛋白质同工型多样化的基本机制,也是转录本时空控制的基本机制。因此,选择性剪接程序在神经元细胞类型特异性特性、神经元生长、自我识别、突触特化和神经元网络功能的发育中发挥着指导作用。在这里,我们讨论了最近在绘制 RNA 编码和 RNA 结合蛋白以调节神经元选择性剪接的全基因组努力。我们说明了选择性剪接如何塑造神经元发育、神经元成熟和突触特性的关键步骤。最后,我们强调了剖析选择性剪接的时空动态及其对神经元可塑性和成熟神经系统的潜在贡献的努力。
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