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

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Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
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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
Microbial Community Decision Making Models in Batch and Chemostat
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Prevalent emergence of reciprocity among cross-feeding bacteria
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Bridging evolutionary game theory and metabolic models for
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Life, Free Full-Text
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
Multi-genome metabolic modeling predicts functional inter
Genome-driven evolutionary game theory helps understand the rise of metabolic interdependencies in microbial communities
COMMIT: Consideration of metabolite leakage and community
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
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