Research progress on applications for the mouse brain atlas and its analysis techniques
10.3969/j.issn.1005-4847.2025.07.012
- VernacularTitle:小鼠脑图谱及其分析技术应用研究进展
- Author:
Mingmin PAN
1
;
Qiyang WANG
;
Guangxin YUE
Author Information
1. 中国中医科学院中医基础理论研究所,北京 100700
- Publication Type:Journal Article
- Keywords:
brain atlas;
high-throughput sequencing technology;
transcriptomics;
neurodegenerative diseases
- From:
Acta Laboratorium Animalis Scientia Sinica
2025;33(7):1053-1063
- CountryChina
- Language:Chinese
-
Abstract:
Mice are a core model organism in neuroscience and are undergoing a technological transition in whole-brain atlas construction,as researchers shift from traditional anatomical approaches to multidimensional molecular-level analysis.This marks a new phase in brain research method ology,characterized by higher resolution and systemic integration.Spatial transcriptomics technologies have significantly advanced the biological depth of neuroscience studies,offering novel paradigms for exploring dynamic neural circuit evolution and cellular diversity in the brain.By combining traditional anatomical localization,single-cell molecular connectomics,and functional imaging for macroscopic dynamic tracking,brain atlas research achieves"molecule-circuit-behavior"tri-level integration,thereby constructing molecular regulatory networks underlying dynamic neural circuit remodeling.However,current challenges persist in technical integration.Reference brain atlases hold great promise for elucidating brain homeostasis mechanisms,identifying abnormal circuit metabolic features in neurological disorders(e.g.,anxiety),and screening therapeutic targets.Future brain atlas research must advance multimodal technology fusion and cross-dimensional data integration to achieve precise mapping from static structures to dynamic functional networks,and thus provide revolutionary tools for neuroscience.
