小鼠大脑中尺度连接体的拓扑结构

Q2 Mathematics

Computational and Mathematical Biophysics Pub Date : 2018-11-12 DOI:10.1515/cmb-2020-0106

Pascal Grange

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引用次数: 1

摘要

摘要小鼠大脑的接线图最近被绘制在艾伦小鼠大脑连接图谱的介观尺度上。使用绿色荧光蛋白追踪大脑区域的轴突投射。将得到的数据登记到公共三维参考空间中。他们得出了213个大脑区域之间的连接强度矩阵。可以使用来自持久同源性的工具来推断由相似强度的连接形成的闭环等全局特征。我们将小鼠大脑的接线图映射到一个单纯复合体（通过连接强度过滤）。我们计算出第一同调群的生成元。一些区域，包括伏隔核，通过回路连接到整个大脑，而没有一个区域与所有大脑区域的连接强度为非零。数以千计的环穿过等皮层、纹状体和丘脑。另一方面，髓质是唯一一个包含100多个环的主要脑区室。

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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Topology of the mesoscale connectome of the mouse brain

Abstract The wiring diagram of the mouse brain has recently been mapped at a mesoscopic scale in the Allen Mouse Brain Connectivity Atlas. Axonal projections from brain regions were traced using green fluoresent proteins. The resulting data were registered to a common three-dimensional reference space. They yielded a matrix of connection strengths between 213 brain regions. Global features such as closed loops formed by connections of similar intensity can be inferred using tools from persistent homology. We map the wiring diagram of the mouse brain to a simplicial complex (filtered by connection strengths). We work out generators of the first homology group. Some regions, including nucleus accumbens, are connected to the entire brain by loops, whereas no region has non-zero connection strength to all brain regions. Thousands of loops go through the isocortex, the striatum and the thalamus. On the other hand, medulla is the only major brain compartment that contains more than 100 loops.

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来源期刊

Computational and Mathematical Biophysics Mathematics-Mathematical Physics

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

30 weeks