{"paper_id":"089685fb-d6ec-4276-9e45-8cbabefb916a","body_text":"Abstract\nPlant metabolism underpins growth and stress resilience, yet spatial information about metabolic networks and enzyme localization remains limited. We developed a high-throughput protoplast transformation and fluorescent-protein tagging system optimized for Sorghum bicolor, a climate-resilient C4 crop. Using this platform, we experimentally determined the subcellular localization of 234 enzymes spanning 184 pathways. These enzymes localized to 12 subcellular compartment classes, revealing conserved and species-specific patterns relative to Arabidopsis thaliana, including some unexpected. In the chorismate biosynthesis pathway, a key enzyme unexpectedly localized to the cytosol, suggesting functional divergence in pathway architecture. In the Calvin-Benson cycle, several enzymes formed puncta in the chloroplast, indicative of possible biocondensate formation. All data are available online via the Sorghum Metabolic Atlas (sorghummetabolicatlas.org). This dataset represents the first expansive experimental map of enzyme localization in sorghum, offering a foundational resource for investigating metabolic compartmentalization and advancing pathway engineering in bioenergy and food crops.\nCompeting Interest Statement\nThe authors have declared no competing interest.","source_license":"CC-BY-4.0","license_restricted":false}