Pages that link to "Item:Q2632634"

The following pages link to Enzyme allocation problems in kinetic metabolic networks: optimal solutions are elementary flux modes (Q2632634):

Displaying 11 items.

• The steady-state assumption in oscillating and growing systems (Q309139) (← links)
• Why optimal states recruit fewer reactions in metabolic networks (Q432636) (← links)
• On dynamically generating relevant elementary flux modes in a metabolic network using optimization (Q500343) (← links)
• Minimization of intermediate concentrations as a suggested optimality principle for biochemical networks. I: Theoretical analysis (Q809002) (← links)
• Regulatory dynamic enzyme-cost flux balance analysis: a unifying framework for constraint-based modeling (Q827854) (← links)
• Sequential activation of metabolic pathways: a dynamic optimization approach (Q1048264) (← links)
• Optimal resource allocation enables mathematical exploration of microbial metabolic configurations (Q1679003) (← links)
• Dynamic metabolic resource allocation based on the maximum entropy principle (Q2184654) (← links)
• Evolution of enzyme levels in metabolic pathways: a theoretical approach. I (Q2670171) (← links)
• Nonlinear multi-objective flux balance analysis of the Warburg Effect (Q2676057) (← links)
• Precision and sensitivity in detailed-balance reaction networks (Q2832989) (← links)