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Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities

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Last updated 17 abril 2025
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Evolution of new metabolic pathways and microbial communities
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Selfishness driving reductive evolution shapes interdependent
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Metabolic modelling approaches for describing and engineering
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Characterizing the correlation between species/strain-specific
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Frontiers Metabolic Modeling Elucidates the Transactions in the
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Cells, Free Full-Text
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
PDF) Multi-genome metabolic modeling predicts functional inter
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Understanding and Engineering Distributed Biochemical Pathways in
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Genome-driven evolutionary game theory helps understand the rise
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Predicting Microbiome Metabolism and Interactions through
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Genome-driven evolutionary game theory helps understand the rise
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Cooperation increases robustness to ecological disturbance in
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Understanding and Engineering Distributed Biochemical Pathways in
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Noisy metabolism can promote microbial cross-feeding
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