Study ID Study Title Species Institute
ST000317Role of medium in bacterial growthBacteriaUniversity of California, Davis
ST000326Role of medium in bacterial growth (HILIC chromatography)BacteriaUniversity of California, Davis
ST000572Metabolomics of Shark Bay stromatolitesBacteriaUniversity of Florida
ST001433Evidence for proline utilisation by oral bacterial biofilms grown in salivaBacteriaKing's College London
ST001496Application of developed quantatation methodBacteriaHelmholtz Centre for Environmental Research
ST001497Intraday validation of of developed quantatation methodBacteriaHelmholtz Centre for Environmental Research
ST001498Interday validation of of developed quantatation methodBacteriaHelmholtz Centre for Environmental Research
ST001511Symbiotic bacteria-derived organic acidsBacteriaQilu University of Technology (Shandong Academy of Sciences)
ST001671A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolismBacteriaStanford University
ST001688A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism (part-II)BacteriaStanford University
ST001852Screening of unique bile acid metabolizing bacteriaBacteriaKeio University School of Medicine
ST001862Cross-feeding between intestinal pathobionts promotes their overgrowth during undernutritionBacteriaUniversity of British Columbia
ST002289Map of microbially induced metabolic changes across diverse body sites in mice - Bacterial culture dataBacteriaUniversity of Calgary
ST002869Identifying Biodegradation Pathways of Cetrimonium Bromide (CTAB) Using Metagenome, Metatranscriptome, and Metabolome Tri-omics IntegrationBacteriaArizona State University
ST003653Marine community metabolomes in the eastern tropical North Pacific Oxygen Deficient ZoneBacteriaUniversity of Washington, School of Oceanography
ST003868Commensal Human Gut Microbes Produce Unique Patterns of Neuro-active CompoundsBacteriaMedical University of South Carolina
ST003871Commensal Human Gut Microbes Produce Unique Patterns of Neuro-active Compounds - Study 2BacteriaMedical University of South Carolina
ST003873Commensal Human Gut Microbes Produce Unique Patterns of Neuro-active Compounds - Study 3BacteriaMedical University of South Carolina
ST003973Trehalose catalytic shift inherently enhances phenotypic heterogeneity and multidrug resistance in Mycobacterium tuberculosisBacteriaUniversity of Southern California
ST004051Synergistic action of specialized metabolites from divergent biosynthesis in human oral microbiomeBacteriaUniversity of California, Berkeley

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