根据细胞的“邻里结构”预测分子特性，AI模型助力绘制最精细小鼠脑图

Core Insights - The collaboration between the University of California, San Francisco, and the Allen Institute has led to the development of an AI model named CellTransformer, which has created the most detailed mouse brain map to date, encompassing 1,300 brain regions and subregions [1][3] Group 1: AI Model and Technology - CellTransformer utilizes a Transformer architecture similar to that used in models like ChatGPT, which excels in understanding contextual relationships [3] - The model analyzes the relationships between adjacent cells in spatial contexts, predicting molecular characteristics based on a cell's "neighborhood structure" [3] Group 2: Brain Mapping Advancements - Unlike previous brain maps that primarily categorized based on cell types, this new model focuses on the brain's structural regions, automatically defining boundaries based on cellular and molecular features rather than human judgment [3][4] - The resulting brain map is one of the most precise and complex data-driven maps of an animal brain to date, accurately representing known regions like the hippocampus and discovering new subregions in less understood areas like the midbrain reticular formation [3][4] Group 3: Implications and Applications - The new brain region delineation is entirely data-driven, revealing numerous unknown areas that may correspond to unexplored brain functions [4] - The potential applications of the CellTransformer model extend beyond neuroscience, with the algorithm being applicable to other organ systems and cancer tissues, utilizing spatial transcriptomics data to uncover biological mechanisms in health and disease, thus providing new tools for drug development and disease treatment [4]