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Harnessing the landscape of microbial culture media to predict new organism– media pairings
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Annual increase in subsystems coverage for select genomes in SEED.
Culturable approach to rice-root associated bacteria in Burkina Faso: diversity, plant growth-promoting rhizobacteria properties and cross-comparison with metabarcoding data
Harnessing the landscape of microbial culture media to predict new organism–media pairings
PDF) A Transcriptomic Analysis of Higher-Order Ecological Interactions in a Eukaryotic Model Microbial Ecosystem
Frontiers The Role of Synthetic Microbial Communities (SynCom) in Sustainable Agriculture
Harnessing the landscape of microbial culture media to predict new organism–media pairings
Abundant fungi dominate the complexity of microbial networks in soil of contaminated site: High-precision community analysis by full-length sequencing - ScienceDirect
PDF] High Cell Density Cultivation of Escherichia coli DH5α in Shake Flasks with a New Formulated Medium
Correlating enzyme annotations with a large set of microbial growth temperatures reveals metabolic adaptations to growth at diverse temperatures, BMC Microbiology
Biology, Free Full-Text
Correlating enzyme annotations with a large set of microbial growth temperatures reveals metabolic adaptations to growth at diverse temperatures, BMC Microbiology
Collaborative filtering predicts media usage. (a) The concept of
Machine learning-assisted discovery of growth decision elements by relating bacterial population dynamics to environmental diversity
Targeted isolation and cultivation of uncultivated bacteria by reverse genomics. - Abstract - Europe PMC
