The Co-Design Framework: Harmonizing Biology, Control, and Scale
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The Co-Design Framework: Harmonizing Biology, Control, and Scale
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This Part advocates for a shift from recipe-based fermentation toward a sophisticated co-design approach that integrates strain engineering, feeding strategies, and digital control. Modern bioprocessing must move beyond simple nutrient delivery to address the regulatory mechanisms and physical constraints that cause failure during industrial scale-up. The source explains how overflow metabolism and catabolite repression result from cellular resource allocation, suggesting that these issues can be managed through genetic rewiring and model-predictive control. Furthermore, the author highlights the importance of using scale-down simulators and digital twins to account for the spatial gradients and feast-famine cycles found in large reactors. Ultimately, the text presents a vision for predictive microbial manufacturing where biological systems and engineering frameworks are optimized simultaneously for maximum efficiency.