List of Studies ( Metabolite:Asp-Pro)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Units(range) |
|---|---|---|---|---|---|---|---|
| ST002247 | AN003670 | Microbiota and Health Study (Dhaka, Bangladesh) | Feces | Human | Broad Institute of MIT and Harvard | Abundances | |
| ST002051 | AN003338 | The apicomplexan parasite Toxoplasma gondii forms bradyzoite-containing tissue cysts that cause chronic and drug-tolerant infections. | Cultured cells | Toxoplasma gondii | Parasitic infection | Robert Koch-Institute | counts |
| ST002747 | AN004454 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | Cultured cells | Human | CZ Biohub | counts, height | |
| ST002747 | AN004454 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | Cultured cells | Rickettsia parkeri | CZ Biohub | counts, height | |
| ST001955 | AN003181 | Metabonomics analysis reveals the physiological mechanism of promoting maize shoots growth under negative pressure to stabilize soil water content | Leaves | Maize | Heilongjiang Bayi Agricultural University | µg/100ml | |
| ST002551 | AN004200 | Metabolomics dataset of CNTF induced axon regeneration in mice post optic nerve crush | Eye tissue | Mouse | Eye disease | University of Miami | µg/ml |
| ST001788 | AN002899 | β-Adrenergic regulation of metabolism in macrophages (part-IV) | Macrophages | Human | Monash University | Intensity | |
| ST002010 | AN003276 | Chemoresistant Ovarian Cancer Global Metabolomics | Cultured cells | Human | Cancer | The University of South Australia | Intensity |
| ST002477 | AN004046 | Neutrophil metabolomics in COVID-19 | Neutrophils | Human | COVID-19 | UT Southwestern Medical Center | MS reading |
| ST002775 | AN004517 | Zebrafish Retina Regeneration Metabolomics - 3 Days Post Crush | Eye tissue | Zebrafish | Eye disease | University of Miami | Normalized Concentrations |
| ST002776 | AN004519 | Zebrafish Optic Nerve Regeneration, Tectum Metabolomics - 3 Days Post Crush | Eye tissue | Zebrafish | Eye disease | University of Miami | Peak Area |
| ST002104 | AN003439 | Chemoresistant Cancer Cell Lines are Characterized by Migratory, Amino Acid Metabolism, Protein Catabolism and IFN1 Signalling Perturbations | Cultured cells | Human | Cancer | Future Industries Institute | peak height |
| ST002412 | AN003931 | Metabolic effects of the protein kinase R | Macrophages | Mouse | Hudson | peak height | |
| ST002926 | AN004798 | Multi-“omics” analysis reveals the orphan P. falciparum protein kinase PfPK8 regulates multi-gene family expression | Blood | Plasmodium falciparum | Malaria | Monash University | peak height |
| ST000403 | AN000643 | Metabolomics-based elucidation of active metabolic pathways in erythrocytes and HSC-derived reticulocytes | Cells | Human | Monash Institute of Pharmaceutical Sciences, Monash University | Peak height | |
| ST000414 | AN000655 | Metabolomics-based screening of the Malaria Box reveals both novel and established mechanisms of action | Cells | Plasmodium falciparum | Malaria | Monash Institute of Pharmaceutical Sciences, Monash University | Peak height |
| ST000539 | AN000819 | 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 | |
| ST000546 | AN000832 | Multi-omics based identification of specific biochemical changes associated with PfKelch13-mutant artemisinin resistant Plasmodium | Cells | Plasmodium falciparum | Malaria | Monash Institute of Pharmaceutical Sciences, Monash University | Peak height |
| ST001033 | AN001694 | Determination of mode of action of anti-malalrial drugs using untargeted metabolomics | Cultured cells | Plasmodium falciparum | Malaria | 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 | |
| ST002407 | AN003924 | Spatial, temporal, and inter-subject variation of the metabolome along the human upper intestinal tract | Intestine | Human | UC Davis | Peak Height | |
| ST000422 | AN000668 | Type 1 Diabetes good glycemic control and controls samples | Blood | Human | Diabetes | Mayo Clinic | Peak intensity |
| ST001201 | AN001999 | Peroxide antimalarial treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
| ST001201 | AN001999 | Peroxide antimalarial treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | Peak intensity |
| ST001202 | AN002001 | Peroxide antimalarial treatment timecourse on ring-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
| ST001202 | AN002001 | Peroxide antimalarial treatment timecourse on ring-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | Peak intensity |
| ST001204 | AN002004 | Peroxide antimalarial extended treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
| ST001204 | AN002004 | Peroxide antimalarial extended treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | Peak intensity |
| ST001205 | AN002007 | Peroxide antimalarial treatment of K13-mutant and -wildtype P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
| ST001205 | AN002007 | Peroxide antimalarial treatment of K13-mutant and -wildtype P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | Peak intensity |
| ST001547 | AN002576 | β-Adrenergic regulation of metabolism in macrophages | Macrophages | Human | Monash University | Peak intensity | |
| ST001549 | AN002580 | β-Adrenergic regulation of metabolism in macrophages (part-III) | Macrophages | Human | Monash University | Peak intensity | |
| ST002106 | AN003444 | Genetic and chemical validation of Plasmodium falciparum aminopeptidase PfA-M17 as a drug target in the hemoglobin digestion pathway (Part 1) | Blood | Plasmodium falciparum | Malaria | Monash University | relative intensity |
| ST002107 | AN003446 | Genetic and chemical validation of Plasmodium falciparum aminopeptidase PfA-M17 as a drug target in the hemoglobin digestion pathway (Part 2) | Blood | Plasmodium falciparum | Malaria | Monash University | relative intensity |
| ST002108 | AN003449 | Genetic and chemical validation of Plasmodium falciparum aminopeptidase PfA-M17 as a drug target in the hemoglobin digestion pathway (Part 3) | Blood | Plasmodium falciparum | Malaria | Monash University | relative intensity |
| ST002309 | AN003771 | Targeting malaria parasites with novel derivatives of azithromycin | Blood | Plasmodium falciparum | Malaria | Monash University | relative intensity |
| ST002512 | AN004136 | 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 | |
| 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 | |
| ST001175 | AN001950 | Multi-omics analysis demonstrates unique mode of action of a potent new antimalarial compound, JPC-3210, against Plasmodium falciparum | Plasmodium cells | Plasmodium falciparum | Malaria | Monash University | Signal Intensity |
| ST001304 | AN002172 | Multi-omics analysis delineates the distinct functions of sub-cellular acetyl-CoA pools in Toxoplasma gondii | Fibroblast cells | Toxoplasma gondii | Parasitic infection | Monash University | Signal Intensity |
| ST001315 | AN002189 | Retargeting azithromycin-like compounds as antimalarials with dual modality | Blood | Plasmodium falciparum | Malaria | Monash University | Signal Intensity |
| ST002231 | AN003640 | Metabolomics Analysis of HOG-EV and HOG-R132H Cells with and without BAY 2402234 Treatment | Cultured cells | Human | Cancer | UT Southwestern Medical Center | TIC-Corrected Peak Area |
