This is SpaCon’s documentation
SpaCon: Integrative Analysis of Spatial Transcriptome and Connectome
Contents:
- Installation Guide for SpaCon
- Tutorial 1: SpaCon for mouse 3D spatial transcriptome and structural connectivity
- Tutorial 2: SpaCon for layer6 CT neuron subtype classification
- Tutorial 3: SpaCon for mouse spatial transcriptomics and widefield functional connectivity data
- Tutorial 4: SpaCon for marmoset cortical gene expression and resting-state functional MRI data
Overview
The brain’s structure and function arise from its complex molecular composition and neural connectivity, yet the relationship between cell-type-specific gene expression and brain-wide connectivity is not well understood. By integrating single-cell resolution spatial transcriptomics and connectomics, we reveal a tight coupling between gene expression and anatomical connectivity in the cortico-thalamic circuit, and identify specific gene expression in axons of the corpus callosum that reflect their cortical origins. Building on these findings, we developed SpaCon, a graph attention autoencoder that uses a tunable hyperparameter to flexibly integrate global connectivity with local gene expression. To enable analysis at the whole-brain scale, SpaCon introduces an efficient neighbor sampling strategy that drastically reduces computational requirements without compromising performance. This architecture allows the model to identify functionally relevant three-dimensional domains defined by both molecular identity and shared connectivity patterns, even when spatially distant. Validated across diverse datasets and species, SpaCon significantly enhances the prediction of connectivity from gene expression and improves the spatial classification of neuronal subtypes. SpaCon thus provides a powerful, scalable, and versatile framework for understanding the complex relationship between transcriptome and connectome.