List of Studies ( Metabolite:Leu-Ser)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Units(range) |
|---|---|---|---|---|---|---|---|
| ST003066 | AN005022 | Heritability of RBC metabolites: baseline correlation of metabolites and markers of RBC health and stability | Erythrocytes | Human | University of Iowa | area under curve | |
| ST002747 | AN004455 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | Cultured cells | Human | CZ Biohub | counts, height | |
| ST002747 | AN004455 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | Cultured cells | Rickettsia parkeri | CZ Biohub | counts, height | |
| ST000508 | AN000778 | Metabolic Profiling of Date Palm Fruits | Plant | Date palm | Weill Cornell Medicine in Qatar | Counts per second | |
| ST000867 | AN001396 | Metabolic Profiling of Date Palm Fruits (part II) | Date palm fruit | Date palm | Weill Cornell Medicine in Qatar | Counts per second | |
| ST001324 | AN002202 | Metabolomics Adaptation of Juvenile Pacific Abalone Haliotis discus hannai to Heat Stress | Pacific Abalone | Institute of Oceanology, Chinese Academy of Sciences | mV*min | ||
| ST002199 | AN003599 | FOXA2 controls the anti-oxidant response in FH-deficient cells independent of NRF2 | Cultured cells | Mouse | Cancer | CECAD Research Center | peak area |
| ST002977 | AN004888 | Offline Two-dimensional Liquid Chromatography-Mass Spectrometry for Deep Annotation of the Fecal Metabolome following Fecal Microbiota Transplant | Feces | Human | University of Michigan | Peak area | |
| ST003036 | AN004977 | Identifying and mathematically modeling the time-course of extracellular metabolic markers associated with resistance to ceftolozane/tazobactam in Pseudomonas aeruginosa - Part 2 | Bacterial cells | Pseudomonas aeruginosa | Bacterial infection | Monash Institute of Pharmaceutical Sciences | peak height |
| ST000403 | AN000642 | Metabolomics-based elucidation of active metabolic pathways in erythrocytes and HSC-derived reticulocytes | Cells | Human | Monash Institute of Pharmaceutical Sciences, Monash University | Peak height | |
| ST000539 | AN000818 | Metabolomics-based elucidation of active metabolic pathways in erythrocytes and HSC-derived reticulocytes (part II) | Cells | Human | Monash Institute of Pharmaceutical Sciences, Monash University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides fragilis | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides thetaiotaomicron | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides uniformis | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Blautia producta | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium clostridioforme | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hathewayi | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hylemonae | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium scindens | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium symbiosum | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecalis | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecium | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus hirae | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Escherichia fergusonii | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Flavonifractor plautii | Stanford University | Peak height | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Parabacteroides distasonis | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides fragilis | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides thetaiotaomicron | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides uniformis | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Blautia producta | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium clostridioforme | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hathewayi | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hylemonae | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium scindens | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium symbiosum | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecalis | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecium | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus hirae | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Escherichia fergusonii | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Flavonifractor plautii | Stanford University | Peak height | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Parabacteroides distasonis | Stanford University | Peak height | |
| ST003160 | AN005184 | New class of heterospirocyclic compounds present strong and rapid activity against artemisinin- and multidrug-resistant P. falciparum parasites | Plasmodium cells | Plasmodium falciparum | Malaria | Monash University | Peak height |
| ST003179 | AN005221 | Property and Activity Refinement of Dihydroquinazolinone-3-carboxamides as Orally Efficacious Antimalarials that Target PfATP4 | Plasmodium cells | Plasmodium falciparum | Malaria | Monash University | Peak height |
| ST001202 | AN002000 | Peroxide antimalarial treatment timecourse on ring-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
| ST001202 | AN002000 | Peroxide antimalarial treatment timecourse on ring-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | Peak intensity |
| ST001205 | AN002006 | Peroxide antimalarial treatment of K13-mutant and -wildtype P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
| ST001205 | AN002006 | Peroxide antimalarial treatment of K13-mutant and -wildtype P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | Peak intensity |
| ST001745 | AN002838 | Metabolomic profiling of the rat hippocampus across developmental ages and after learning | Brain | Rat | New York University | pmoles/l | |
| ST002512 | AN004137 | Gnotobiotic mice: Metabolites in intestinal contents of germ-free mice colonized with strains of gut bacterium Eggerthella lenta | Intestine | Mouse | University of California, San Francisco | relative ion counts | |
| ST000975 | AN001596 | GC6-74 metabolomics of TB vs healthy (Part 2: Serum) | Blood | Human | Tuberculosis | Max Planck Institute for Infection Biology | scaled units |
