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皮质结构的放射状架构:从神经元轮廓到基因工程

The radial edifice of cortical architecture: from neuronal silhouettes to genetic engineering.

作者信息

Rakic Pasko

机构信息

Section of Neurobiology, Yale University School of Medicine, 333 Cedar Street, New Haven, CT 06510, USA.

出版信息

Brain Res Rev. 2007 Oct;55(2):204-19. doi: 10.1016/j.brainresrev.2007.02.010. Epub 2007 Mar 31.

DOI:10.1016/j.brainresrev.2007.02.010
PMID:17467805
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2203611/
Abstract

The developmental principles that establish the columnar edifice of the cerebral cortex underlie its evolution and dictate its physiological operations and cognitive capacity. This article contrasts the initial discoveries made by Ramón y Cajal and his contemporaries, based on the ingenious interpretation of neuronal shapes and their relationships using the Golgi method, with new insights based on the application of the most advanced methods of molecular biology and genetics. We can now propose a realistic model of how the sequence of gene expression, cascade of multiple molecular pathways and cell-cell interactions establish the number of neurons, guide their migration and allocation into proper regions and determine their differentiation into specific phenotypes that establish specific synaptic connections. The findings obtained from different levels of analyses sustain the radial unit hypothesis as a useful framework for understanding the mechanisms of cortical development and its evolution as an organ of thought.

摘要

构建大脑皮质柱状结构的发育原理是其进化的基础,并决定其生理功能和认知能力。本文将拉蒙·伊·卡哈尔及其同时代人基于用高尔基方法对神经元形态及其关系的巧妙解读所做出的最初发现,与基于应用最先进的分子生物学和遗传学方法所获得的新见解进行了对比。现在我们可以提出一个现实的模型,说明基因表达序列、多个分子通路的级联以及细胞间相互作用是如何确定神经元数量、引导它们迁移并分配到适当区域,并决定它们分化为建立特定突触连接的特定表型的。从不同分析层面获得的研究结果支持了放射状单元假说,该假说作为一个有用的框架,有助于理解皮质发育机制及其作为思维器官的进化过程。

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