List of Studies ( Metabolite:Cholesterol sulfate)
Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Units(range) |
---|---|---|---|---|---|---|---|
ST003104 | AN005083 | Metabolomics studies on human cardiac samples | Heart | Human | Heart disease | University of Sydney | abundance |
ST003252 | AN005328 | Metabolomics studies on mouse cardiac samples on a Western diet | Heart | Mouse | Obesity; Diabetes; Hypertension; Hyperglycemia | University of Sydney | abundance |
ST003253 | AN005331 | Metabolomics studies on mouse liver samples on a Western diet | Liver | Mouse | Obesity; Diabetes; Hypertension; Hyperglycemia | University of Sydney | abundance |
ST001680 | AN002741 | Metabolome of NAFLD in high fat diet mouse model | Liver | Mouse | Fatty liver disease | Weill Cornell Medicine | Abundance |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Adipose tissue | Mouse | North Carolina State University | arbitrary unit | |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Blood | Mouse | North Carolina State University | arbitrary unit | |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Heart | Mouse | North Carolina State University | arbitrary unit | |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Intestine | Mouse | North Carolina State University | arbitrary unit | |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Kidney | Mouse | North Carolina State University | arbitrary unit | |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Liver | Mouse | North Carolina State University | arbitrary unit | |
ST003076 | AN005034 | Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism | Muscle | Mouse | North Carolina State University | arbitrary unit | |
ST003254 | AN005336 | The impact of grass- and grain-finishing on metabolomic profiles of North American Black Angus Beef cattle. | Bovine meat | Cow | Duke University | Arbitrary Units | |
ST002759 | AN004482 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Kidney cortex | Rat | Medical College of Wisconsin | Area | |
ST003327 | AN005451 | Control Of Major Bleeding After Trauma (COMBAT) Clinical Research Trial Metabolomics | Blood | Human | Trauma | University of Colorado Anschutz Medical Campus | area under curve |
ST000450 | AN000706 | Metabolic features of chronic fatigue syndrome | Blood | Human | Myalgic encephalomyelitis/chronic fatigue syndrome | University of California, San Diego | Area under curve |
ST000465 | AN000726 | Uniquely Tumor-Selective Englerin A Profoundly Alters Lipid Metabolism in Renal Cell Carcinoma inducing ER-Stress and an Acute Inflammatory Response | Kidney | Human | Cancer | University of California, San Diego | Area under curve |
ST000617 | AN000946 | Validation of the application of targeted metabolomic appraoch in the diagnosis of CFS | Blood | Human | Myalgic encephalomyelitis/chronic fatigue syndrome | University of California, San Diego | Area under curve |
ST001908 | AN003105 | Post Acute Myocardial Infarction Left Ventricular Remodeling Bio marker Analysis (PAMILA) | Blood | Human | Heart disease | National University of Singapore | a.u. |
ST003088 | AN005051 | Metabolome changes in embryonic CSF (Part 10) | Blood | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | a.u. |
ST003088 | AN005051 | Metabolome changes in embryonic CSF (Part 10) | CSF | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | a.u. |
ST003088 | AN005051 | Metabolome changes in embryonic CSF (Part 10) | Liver | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | a.u. |
ST003089 | AN005053 | Metabolome changes in embryonic CSF (Part 11) | CSF | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | a.u. |
ST002058 | AN003351 | Muscle/Lung/Tumor metabolomics | Lung | Mouse | Cancer | University of Colorado Anschutz Medical Campus | AU |
ST002058 | AN003351 | Muscle/Lung/Tumor metabolomics | Muscle | Mouse | Cancer | University of Colorado Anschutz Medical Campus | AU |
ST002123 | AN003476 | GCN2 regulates mitochondrial OXPHOS in HSPCs under proliferation conditions. | Bone marrow | Mouse | Sun Yat-sen University | AU | |
ST003201 | AN005251 | Molecular signatures of xenograft colon cancer models treated with topotecan: A Mass Spectrometry-Based Study | Blood | Mouse | Cancer | Sharjah Institute for Medical Research | AU |
ST003546 | AN005828 | Improved Soil Health and Pasture Phytochemical Richness Underlies Improved Beef Nutrient Density in Southern US Grass-Finished Beef Systems | Muscle | Cattle | Utah State University | AU | |
ST002373 | AN003868 | Extracellular metabolome of activated CD8+ T cells | Cultured cells | Mouse | Johns Hopkins University | AUC | |
ST002374 | AN003869 | Metabolomics analysis of WT vs. GOT1 knockout CD8+ T cells | Cultured cells | Mouse | Johns Hopkins University | AUC | |
ST002375 | AN003870 | Metabolomics analysis of WT or GOT1 knockout CD8+ T cells cultured in serine-replete or serine-free media | Cultured cells | Mouse | Johns Hopkins University | AUC | |
ST002178 | AN003567 | Age-independent Cardiac Protection by Pharmacological Activation of Beclin-1 During Endotoxemia and Its Association with Energy Metabolic Reprograming in Myocardium — A Targeted Metabolomics Study | Heart | Mouse | Endotoxemia | Loyola University Chicago Stritch School of Medicine | count per second (cps) |
ST000041 | AN000062 | High PUFA diet in humans | Blood | Human | University of Michigan | Counts | |
ST000042 | AN000065 | BALF Control vs ALI by RPLC-MS | Lung | Human | University of Michigan | Counts | |
ST000044 | AN000069 | Pilot experiment looking for the existence of certain molecules in pancreatic cancer cells | Pancreas | Human | Cancer | University of Michigan | Counts |
ST000105 | AN000174 | SCOR Metabolomics | Blood | Human | University of Chicago | Counts | |
ST000106 | AN000176 | IWMS Study 1:Weight comparison of obese and lean patients | Blood | Human | Obesity | University of Michigan | Counts |
ST001795 | AN002916 | Changes in mesenteric lymph lipid profile of mice upon high-fat diet with and without Celecoxib (part I) | Mesenteric lymph | Mouse | Obesity | Monash Institute of Pharmaceutical Sciences | height |
ST001796 | AN002918 | Changes in mesenteric lymph lipid profile of mice upon high-fat diet with and without Celecoxib | Mesenteric lymph | Mus musculus | Diabetes | Monash Institute of Pharmaceutical Sciences | height |
ST002797 | AN004551 | Fetal metabolic adaptations to cardiovascular stress in twin-twin transfusion syndrome | Amniotic fluid | Human | Twin-twin transfusion syndrome | University of Texas Health Science Center at Houston | intensity |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | BAT | Mouse | University of Pennsylvania | Intensity | |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | Blood | Mouse | University of Pennsylvania | Intensity | |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | Diaphragm | Mouse | University of Pennsylvania | Intensity | |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | gWAT | Mouse | University of Pennsylvania | Intensity | |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | Heart | Mouse | University of Pennsylvania | Intensity | |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | Liver | Mouse | University of Pennsylvania | Intensity | |
ST002813 | AN004576 | Effects of acute cold exposure on mouse metabolome | Quadriceps | Mouse | University of Pennsylvania | Intensity | |
ST003323 | AN005438 | Global Metabolomics and U-13C6-Glucose Tracing in Bone Marrow Derived Macrophages (BMDM) | Bone marrow | Mouse | Immune system disorders | University of Colorado Anschutz Medical Campus | Intensity Counts |
ST002459 | AN004012 | Comparison of metabolite profiles from matched whole blood microsamplers, whole blood dried blood spots, and plasma. | Blood | Human | Icahn School of Medicine at Mount Sinai | Ion abundance | |
ST002744 | AN004450 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 4) | Liver | Mouse | Cornell University | Ion abundance | |
ST002751 | AN004464 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 5) | Liver | Mouse | Cornell University | Ion abundance (peak area) | |
ST002119 | AN003468 | Metabolomics analysis of zebrafish response to CID661578 treatment | Larvae | Zebrafish | Diabetes | North Carolina State University | ion counts |
ST002152 | AN003524 | Metabolomics analysis of mouse liver with or without SIRT5 deficiency | Liver | Mouse | North Carolina State University | ion counts | |
ST002349 | AN004096 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 1) | Liver | Mouse | Cornell University | Ion counts | |
ST002352 | AN004098 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 2) | Liver | Mouse | Cornell University | Ion counts | |
ST001953 | AN003178 | Identifying metabolite changes in human islets treated with Phospho-BAD mimicry and Inflammatory cytokines | Cultured cells | Human | Diabetes | Harvard University | Ion signal intensity |
ST002822 | AN004602 | Effect of ERR Agonist in Mouse Heart Post Pressure Overload | Heart | Mouse | Baylor College of Medicine | log transformed data | |
ST002829 | AN004622 | Nucleotide, phospholipid, and kynurenine metabolites are robustly associated with COVID-19 severity and time of plasma sample collection in a prospective cohort study | Blood | Human | COVID-19 | National Institutes of Health | log transformed data |
ST000784 | AN001241 | metabolome in a group of AA and EA matched pairs of prostate cancer (PCa) and benign adjacent tissues | Prostate | Human | Cancer | Baylor College of Medicine | log transform with internal standard normalization |
ST003349 | AN005488 | An integrated LC-MS analysis of the biometric characteristics of different time cohorts of race walkers - targeted | Blood | Human | The First Affiliated Hospital of Dalian Medical University | ng/mL | |
ST003390 | AN005562 | In-depth profiling of biosignatures for Type 2 diabetes mellitus cohort utilizing an integrated targeted LC-MS platform | Blood | Human | Diabetes | The First Affiliated Hospital of Dalian Medical University | ng/mL |
ST002322 | AN003789 | Metabolomics study comparing SCAP KO and WT B cells | Cultured cells | Mouse | Indiana University School of Medicine | Normalized AUC | |
ST003277 | AN005368 | LC-MS/MS spatial analysis of mouse GI | Intestine | Mouse | Brown University | normalized imputed data | |
ST001841 | AN002984 | Metabolomics of lung microdissections reveals region- and sex-specific metabolic effects of acute naphthalene exposure in mice (part II) | Liver | Mouse | Oxidative stress | University of California, Davis | normalized peak height |
ST002809 | AN004569 | Role of cilia in mitochondrial function | Cultured cells | Dog | Kidney disease | Medical University of South Carolina | Normalized/scaled raw area counts |
ST002809 | AN004569 | Role of cilia in mitochondrial function | Cultured cells | Mouse | Kidney disease | Medical University of South Carolina | Normalized/scaled raw area counts |
ST001780 | AN002890 | Comparative analysis of metabolomic profiles in cerebrospinal fluid before and after endurance exercise | Cerebrospinal fluid | Human | UCSD School of Medicine | peak area | |
ST001789 | AN002901 | Acute metabolomic changes of plasma in response to endurance exercise | Blood | Human | University of California, San Diego | peak area | |
ST001999 | AN003262 | Polyamine import and accumulation causes immunomodulation in macrophages engulfing apoptotic cells (Part 4) | Macrophages | Mouse | University of Colorado Denver | peak area | |
ST002011 | AN003279 | The anticancer human mTOR inhibitor MLN0128/Sapanisertib with potent multistage in vitro antiplasmodium activity and in vivo antimalarial efficacy in a humanised mouse model is an inhibitor of multiple Plasmodium falciparum kinases. | Blood | Plasmodium falciparum | Malaria | Pennsylvania State University | peak area |
ST002153 | AN003527 | Data from plasma metabolome analysis of APP-KI and Wild type mice treated with B. breve MCC1274 | Blood | Mouse | Morinaga milk industry CO., LTD. | peak area | |
ST002213 | AN003618 | Metabolic changes in Alzheimer patient-derived induced neurons versus non-demented controls | Fibroblast cells | Human | Alzheimers disease | University of Colorado Denver | peak area |
ST002630 | AN004302 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Plasma - Untargeted Lipidomics, Reversed-Phase Negative | Blood | Rat | Georgia Institute of Technology | peak area | |
ST002656 | AN004328 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Kidney Powder - Untargeted Lipidomics, Reversed-Phase Negative | Kidney | Rat | Georgia Institute of Technology | peak area | |
ST002670 | AN004342 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Lung Powder - Untargeted Lipidomics, Reversed-Phase Negative | Lung | Rat | Georgia Institute of Technology | peak area | |
ST002677 | AN004349 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Liver Powder - Untargeted Lipidomics, Reversed-Phase Negative | Liver | Rat | Georgia Institute of Technology | peak area | |
ST002690 | AN004363 | MoTrPAC: Endurance exercise training study in young adult rats, Rat White Adipose Powder - Untargeted Lipidomics, Reversed-Phase Negative | White adipose | Rat | Georgia Institute of Technology | peak area | |
ST000017 | AN000035 | Rat HCR/LCR Stamina Study | Blood | Rat | University of Michigan | Peak area | |
ST000241 | AN000373 | Cyclobutene- and cyclobutane-functionalized fatty acids as novel biochemical probes of structure and function in HepG2 cells | Cultured cells | Human | University of Nebraska-Lincoln | Peak area | |
ST000291 | AN000464 | LC-MS Based Approaches to Investigate Metabolomic Differences in the Urine of Young Women after Drinking Cranberry Juice or Apple Juice | Urine | Human | University of Florida | Peak area | |
ST000291 | AN000465 | LC-MS Based Approaches to Investigate Metabolomic Differences in the Urine of Young Women after Drinking Cranberry Juice or Apple Juice | Urine | Human | University of Florida | Peak area | |
ST000310 | AN000490 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | Blood | Mouse | Lupus | University of Florida | Peak area |
ST000310 | AN000491 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | Blood | Mouse | Lupus | University of Florida | Peak area |
ST000311 | AN000495 | TC and B6 untreated plasma in lupus-prone mice | Blood | Mouse | Lupus | University of Florida | Peak area |
ST000335 | AN000541 | Metabolomics of bovine uterine fluid at the onset of conceptus elongation | Uterus | Cow | University of Florida | Peak area | |
ST000689 | AN001063 | Influence of Noxa knockdown on cell metabolism | Cultured cells | Human | University of Michigan | Peak area | |
ST000692 | AN001069 | Metabolites produced by strains associated with inflammation | Bacterial cells | Treponema | Inflammation | University of Michigan | Peak area |
ST000692 | AN001070 | Metabolites produced by strains associated with inflammation | Bacterial cells | Treponema | Inflammation | University of Michigan | Peak area |
ST000693 | AN001071 | Lanthanide-mineral induced alteration of bile acid metabolism in a murine model of steatohepatitis (part II) | Mouse | Fatty liver disease | University of Michigan | Peak area | |
ST000693 | AN001072 | Lanthanide-mineral induced alteration of bile acid metabolism in a murine model of steatohepatitis (part II) | Mouse | Fatty liver disease | University of Michigan | Peak area | |
ST000713 | AN001114 | Metabolic profiling of cyst fluid from patients with Intraductal Pancreatic Mucinous Neoplasm | Cyst fluid | Human | Cancer | University of Michigan | Peak area |
ST000724 | AN001135 | Red squirrels age related changes | Blood | Squirrel | University of Michigan | Peak area | |
ST000725 | AN001137 | Metabolome, body composition, and muscle performance in children | Blood | Human | University of Michigan | Peak area | |
ST000750 | AN001177 | Rat amniotic fluid metabolomics (part II) | Amniotic fluid | Rat | University of Michigan | Peak area | |
ST000751 | AN001178 | Mouse placentas-DEHP exposure (part II) | Placenta | Mouse | University of Michigan | Peak area | |
ST000751 | AN001179 | Mouse placentas-DEHP exposure (part II) | Placenta | Mouse | University of Michigan | Peak area | |
ST000758 | AN001191 | Effects of caloric restriction in HCR/LCR rats | Rat | University of Michigan | Peak area | ||
ST000823 | AN001307 | Metabolic profiling of cyst fluid from patients with Intraductal Pancreatic Mucinous Neoplasm (part II) | Cyst fluid | Human | Cancer | University of Michigan | Peak area |
ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Brain | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Liver | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Muscle | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001065 | AN001743 | Lipidomics analysis for aged mice brain cortex (part-II) | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001065 | AN001743 | Lipidomics analysis for aged mice brain cortex (part-II) | Brain | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001065 | AN001743 | Lipidomics analysis for aged mice brain cortex (part-II) | Liver | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001065 | AN001743 | Lipidomics analysis for aged mice brain cortex (part-II) | Muscle | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Brain | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Liver | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Muscle | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Brain | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Liver | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Muscle | Mouse | Takeda Pharmaceutical Company Limited | Peak area | |
ST001218 | AN002031 | Wild type versus TRACK Mice on regular chow and Vitamin A deprived diet | Kidney | Mouse | Cancer | weill cornell medicine | Peak area |
ST001232 | AN002050 | Combining stage - specificity and metabolomic profiling to advance drug discovery for malaria | Cultured cells | Plasmodium falciparum | Malaria | Pennsylvania State University | Peak area |
ST001329 | AN002215 | SS-31 and NMN: Two Paths to Improve Metabolism and Function in Aged Hearts | Heart | Mouse | University of Washington | Peak area | |
ST001385 | AN002312 | Urine Metabolomics | Urine | Human | Icahn School of Medicine at Mount Sinai | Peak area | |
ST001420 | AN002375 | Metabolomic analysis of patients with recurrent angina | Blood | Human | Angina | University of California, San Diego | Peak area |
ST001441 | AN002408 | Metabolomics of patient-derived fibroblasts | Fibroblast cells | Human | Mitochondrial disease | North Carolina State University | Peak area |
ST001611 | AN002646 | Mouse model of sarcoma (STS) to characterize tumor vulnerabilities and identify novel targets for anti-cancer treatment | Muscle | Mouse | Cancer | North Carolina State University | Peak area |
ST001611 | AN002646 | Mouse model of sarcoma (STS) to characterize tumor vulnerabilities and identify novel targets for anti-cancer treatment | Sarcoma | Mouse | Cancer | North Carolina State University | Peak area |
ST002182 | AN003574 | Amelioration of developmental programming of NAFLD in weanling liver using PQQ | Liver | Mouse | Fatty liver disease | University of Oklahoma Health Sciences Center | Peak area |
ST002191 | AN003586 | Amelioration of developmental programming of NAFLD in fetal liver using PQQ | Liver | Mouse | Fatty liver disease | University of Oklahoma Health Sciences Center | Peak area |
ST002505 | AN004127 | A Mammalian Conserved Circular RNA CircLARP2 Regulates Hepatocellular Carcinoma Metastasis and Lipid Metabolism (Part 1) | Cultured cells | Human | Cancer | University of Science and Technology of China | 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 | |
ST002977 | AN004890 | 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 | |
ST003348 | AN005484 | An integrated LC-MS analysis of the biometric characteristics of different time cohorts of race walkers - untargeted | Blood | Human | The First Affiliated Hospital of Dalian Medical University | Peak area | |
ST003520 | AN005781 | Identification of Plasma Metabolomic Biomarkers of Juvenile Idiopathic Arthritis | Blood | Human | Arthritis | University of Kansas | Peak area |
ST002754 | AN004471 | Metabolomics analysis of maternal obesity model | Blood | Mouse | Fatty liver disease | University of Bonn | Peak Area |
ST000698 | AN001084 | Metabolomics analysis of Sirt5 knockdown (KD) melanoma | Human | University of Michigan | Peak area normalized | ||
ST000818 | AN001297 | Integrated nutrigenomic and metabolomic analysis of Africans with variable diet | Blood | Human | Heart disease | University of Michigan | Peak area normalized |
ST002066 | AN003366 | Glutaminase inhibition impairs CD8 T cell activation in STK11/Lkb1 deficient lung cancer | Lung | Mouse | Cancer | The Walter and Eliza Hall Institute of Medical Research | peak height |
ST002698 | AN004373 | Systemic host inflammation induces stage-specific transcriptomic modification and slower maturation in malaria parasites | Infected Red Blood Cells | Plasmodium berghei | Malaria | Peter Doherty Institute for Infection and Immunity | peak height |
ST002792 | AN004543 | Chemoproteomics validates selective targeting of Plasmodium M1 alanyl aminopeptidase as a cross-species strategy to treat malaria | Blood | Plasmodium falciparum | Malaria | Monash University | peak height |
ST003144 | AN005160 | On-target, dual aminopeptidase inhibition provides cross-species antimalarial activity | Blood | Plasmodium falciparum | Malaria | Monash University | peak height |
ST000286 | AN000454 | Mouse skeletal myotube chronic low-frequency stimulation | Myotubes | Mouse | University of Florida | Peak height | |
ST000294 | AN000470 | Mechanisms of Metabolic Cycles in Diapausing Flesh Fly by Metabolomics Approach | Whole insect | Flesh Fly | University of Florida | Peak height | |
ST000310 | AN000492 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | Blood | Mouse | Lupus | University of Florida | Peak height |
ST000310 | AN000493 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | Blood | Mouse | Lupus | University of Florida | Peak height |
ST000311 | AN000497 | TC and B6 untreated plasma in lupus-prone mice | Blood | Mouse | Lupus | University of Florida | 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 | AN000656 | 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 | AN000833 | 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 |
ST001274 | AN002115 | Metabolomics-based profiling of the mode of action of Pathogen Box compounds in Trypanosoma brucei (part-I) | Cultured cells | Trypanosoma brucei | Sleeping sickness | Monash University | Peak height |
ST001275 | AN002116 | Metabolomics-based profiling of the mode of action of Pathogen Box compounds in Trypanosoma brucei (part-II) | Cultured cells | Trypanosoma brucei | Sleeping sickness | Monash University | Peak height |
ST001276 | AN002117 | Development and Characterisation of a Novel Class of Aroyl Guanidine Containing Anti-Trypanosomal Compounds | Cultured cells | Trypanosoma brucei | Sleeping sickness | Monash University | Peak height |
ST001637 | AN002676 | A Metabolome Atlas of the Aging Mouse Brain | Brain | Mouse | University of California, Davis | Peak height | |
ST001637 | AN002678 | A Metabolome Atlas of the Aging Mouse Brain | Brain | Mouse | University of California, Davis | Peak height | |
ST001888 | AN003058 | A Metabolome Atlas of the Aging Mouse Brain (Study part II) | Brain | Mouse | University of California, Davis | Peak height | |
ST001888 | AN003060 | A Metabolome Atlas of the Aging Mouse Brain (Study part II) | Brain | Mouse | University of California, Davis | Peak height | |
ST003160 | AN005185 | 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 |
ST001794 | AN002912 | Metabolomics Analysis of Time-Series Gastrointestinal Lumen Samples | Intestine | Human | University of California, Davis | Peak Height Intensity | |
ST002817 | AN004585 | Investigation of metabolism in hypertrophic cardiomyopathy - Lipidomics | Heart | Mouse | Cardiomyopathy | University of California, San Francisco | peak heights |
ST000421 | AN000664 | ms3076 T1D poor glycemic control and control samples | Blood | Human | Diabetes | Mayo Clinic | Peak intensity |
ST000549 | AN000838 | Investigating large scale metabolomics in mice serum lacking insulin receptors and IGF-1 receptors | Blood | Mouse | 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 | AN002005 | Peroxide antimalarial extended treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | Peak intensity |
ST001204 | AN002005 | 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 |
ST001317 | AN002193 | Dynamics of Exposure, Phthalates, and Asthma in a Randomized Trial (DEPART) | Urine | Human | Asthma | Icahn School of Medicine at Mount Sinai | Peak intensity |
ST001317 | AN002193 | Dynamics of Exposure, Phthalates, and Asthma in a Randomized Trial (DEPART) | Urine | Human | Environmental exposure | Icahn School of Medicine at Mount Sinai | Peak intensity |
ST001364 | AN002271 | Core Functional Nodes and Sex-Specific Pathways in Human Ischemic and Dilated Cardiomyopathy | Heart | Human | Cardiomyopathy | University of Sydney | Peak intensity |
ST001652 | AN002699 | Atypical Molecular Basis for Drug Resistance to Mitochondrial AQ: A Function Inhibitors in Plasmodium falciparum | Plasmodium cells | Plasmodium falciparum | Malaria | U.S. Food & Drug Administration | Peak intensity |
ST002541 | AN004187 | Methionine restriction constrains lipoylation and activates mitochondria for nitrogenic synthesis of amino acids (Part 1) | Yeast cells | Yeast | Life Sciences Institute, ZheJiang University | Peak intensity | |
ST002542 | AN004189 | Methionine restriction constrains lipoylation and activates mitochondria for nitrogenic synthesis of amino acids (Part 2) | Yeast cells | Yeast | Life Sciences Institute, ZheJiang University | Peak intensity | |
ST002270 | AN003711 | Xenopus tropicalis glycolysis and PPP inhibition | Tail | Western clawed frog | University of Washington | Peak Intensity | |
ST002271 | AN003713 | Xenopus tropicalis regeneration timecourse | Tail | Western clawed frog | University of Washington | Peak Intensity | |
ST002805 | AN004561 | IL-1β-mediated adaptive re-programming of endogenous human cardiac fibroblasts to cells with immune features during fibrotic remodeling | Cultured cells | Human | Pulmonary hypertension | Brown University | Q3 Peak Area (area under curve) |
ST002090 | AN003414 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 2) | Feces | Mouse | Irritable bowel syndrome | Mayo Clinic | raw intensity |
ST002094 | AN003420 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 1) | Feces | Human | Irritable bowel syndrome | Mayo Clinic | raw intensity |
ST002094 | AN003422 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 1) | Feces | Human | Irritable bowel syndrome | Mayo Clinic | raw intensity |
ST000046 | AN000078 | Identification of altered metabolic pathways in Alzheimer's disease, mild cognitive impairment and cognitively normals using Metabolomics (plasma) | Blood | Human | Alzheimers disease | Mayo Clinic | Raw MS Intensities |
ST002438 | AN003975 | Ozone alters glycosphingolipid metabolism and exacerbates characteristics of asthma in mice | Lung | Mouse | Asthma | University of California, Davis | Relative abundance |
ST002716 | AN004404 | Ventricle-specific myocardial protein and metabolite characterisation in healthy humans, with differential regulation in end-stage cardiomyopathies (Part 1) | Heart | Human | Cardiomyopathy | University of Sydney | Relative abundance |
ST002717 | AN004406 | Ventricle-specific myocardial protein and metabolite characterisation in healthy humans, with differential regulation in end-stage cardiomyopathies (Part 2) | Heart | Human | Cardiomyopathy | University of Sydney | Relative abundance |
ST001730 | AN002816 | Mitochondrial ATP fuels ABC transporter-mediated drug efflux in cancer chemoresistance | Cultured cells | Human | Cancer | University of Colorado Denver | Relative Abundance |
ST001731 | AN002818 | Mitochondrial ATP fuels ABC transporter-mediated drug efflux in cancer chemoresistance (part-II) | Cultured cells | Human | Cancer | University of Colorado Denver | Relative Abundance |
ST002206 | AN003609 | Lipolysis-derived Lipids Determine Autophagy Initiation during Fasting | Worms | C. elegans | Seoul National University | relative area | |
ST001439 | AN002404 | Metabolites in contents of small intestine in wild type and DAOG181R/G181R mice | Intestine | Mouse | KEIO University School of Medicine | relative_area | |
ST001668 | AN002723 | D-Allulose effects on hepatic metabolomics profile in rodents | Liver | Rat | Matsutani Chemical Industry Co., Ltd. | Relative Area | |
ST003298 | AN005405 | Annual changes on metabolomics profile in latex | Latex | Plant | Sumitomo Riko Co., Ltd. | Relative Area | |
ST002263 | AN003697 | Intermittent fasting induces rapid hepatocyte proliferation to maintain the hepatostat | Liver | Mouse | Stanford University | relative counts | |
ST002106 | AN003445 | 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 | AN003447 | 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 | AN003772 | Targeting malaria parasites with novel derivatives of azithromycin | Blood | Plasmodium falciparum | Malaria | Monash University | relative intensity |
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 | |
ST002513 | AN004139 | Gnotobiotic mice: Metabolites in serum of germ-free mice colonized with strains of gut bacterium Eggerthella lenta | Blood | Mouse | University of California, San Francisco | relative ion counts | |
ST001869 | AN003031 | WNK463 Inhibition on Right Ventricular metabolomics | Heart | Rat | Hypertension | University of Minnesota | relative value |
ST001870 | AN003032 | Effects of GP130 Antagonism on Right Ventricular Metabolism in Monocrotaline Rats | Heart | Rat | University of Minnesota | relative value | |
ST001315 | AN002190 | Retargeting azithromycin-like compounds as antimalarials with dual modality | Blood | Plasmodium falciparum | Malaria | Monash University | Signal Intensity |