List of Studies ( Metabolite:Ophthalmic acid)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Analysis Type |
|---|---|---|---|---|---|---|---|
| ST004403 | AN007361 | Polar metabolomics on cell pellets and extracellular media of 4-week iPSC derived forebrain excitatory neurons generated from a FXS and CRISPR edited isogenic control. | Cultured cells | Human | Genetic disease | UMass Chan Medical School | LC-MS |
| ST004403 | AN007361 | Polar metabolomics on cell pellets and extracellular media of 4-week iPSC derived forebrain excitatory neurons generated from a FXS and CRISPR edited isogenic control. | Culture media | Human | Genetic disease | UMass Chan Medical School | LC-MS |
| ST004396 | AN007347 | More intracellular polar metabolomics on Lymphoblastoid cell lines (LCL) between individuals with Fragile X Syndrome (FXS) and from typically developing (TD) male controls. (Repeat on cell from more patients) | Cultured cells | Human | Genetic disease | UMass Chan Medical School | LC-MS |
| ST004389 | AN007333 | Longitudinal Multi-omics Profiling Reveals Different Adaptation to Heat Stress in Genomically Divergent Lactating Sows | Feces | Pig | Environmental stress | North Carolina State University | LC-MS |
| ST004389 | AN007333 | Longitudinal Multi-omics Profiling Reveals Different Adaptation to Heat Stress in Genomically Divergent Lactating Sows | Milk | Pig | Environmental stress | North Carolina State University | LC-MS |
| ST004321 | AN007199 | Food intake-independent metabolic alterations in cachectic C26 mice compared to non-cachectic C26 mice | Blood | Mouse | Cancer | Harvard School of Public Health | LC-MS |
| ST004291 | AN007136 | Metabolomics analysis of Plasmodium falciparum asexual-stage parasites treated with plasmepsin V peptidomimetics - 16 hour treatment | Blood | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST004290 | AN007134 | Metabolomics characterisation of Plasmodium falciparum response to plasmepsin V peptidomimetic inhibitors - 5 hour treatment | Blood | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST004274 | AN007113 | Loss of vitamin C biosynthesis protects from the pathology of a Schistosome infection and egg production. | Whole worm lysate | Worm | Schistosomiasis | University of Texas Southwestern Medical Center at Dallas | LC-MS |
| ST004207 | AN006997 | Tumour sampling conditions perturb the metabolic landscape of clear cell renal cell carcinoma | Kidney | Human, Mouse | Cancer | University of Cambridge | LC-MS |
| ST004182 | AN006944 | Metabolomics of ASCL1-high and ASCL1-low SCLC cells in mouse models | Cultured cells | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST004182 | AN006945 | Metabolomics of ASCL1-high and ASCL1-low SCLC cells in mouse models | Cultured cells | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST004153 | AN006894 | Multi-omics Study of Small Intestine Adaptation After Total Colectomy in a Rat model | Feces | Rat | Shanghai Jiao Tong University | LC-MS | |
| ST004144 | AN006869 | Metabolic rewiring in isogenic SW48 colorectal cancer cells with different oncogenic KRAS G12 point mutations | Cultured cells | Human | Cancer | Brunel University of London | LC-MS |
| ST004092 | AN006782 | SLC45A4 Knockout cells have lowered GABA production | Cultured cells | Human | Cancer | Rutgers University | LC-MS |
| ST004082 | AN006759 | The secreted metabolite sensor CtBP2 links metabolism to healthy lifespan | Fibroblast cells | Human | University of Tsukuba | CE-MS | |
| ST004081 | AN006756 | Remodeling of Prochlorococcus metabolism during viral infection | Bacterial cells | Prochlorococcus marinus | University of Washington | LC-MS | |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Brain | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Eye | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Fin | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Heart | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Intestine | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Liver | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Muscle | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004074 | AN006744 | Metabolite Pools in Adult Zebrafish Treated with Antimicrobials or Control | Serum | Zebrafish | Liver disease | Washington University in St. Louis | LC-MS |
| ST004042 | AN006681 | Untargeted Metabolomics Identifies Oncometabolites Induced by P2-HNF4α Overexpression in Hepatocytes | Cultured cells | Mouse | Cancer | University of Tennessee Health Science Center | LC-MS |
| ST004035 | AN006673 | Serum Metabolites at Defined Stages of Liver Disease | Liver | Mouse | Liver disease | University of Texas Health Science Center at Houston | LC-MS |
| ST004032 | AN006668 | SIRT3 induces cell senescence via regulating deacetylation of SLC25A13 in colorectal cancer | Colorectal Tissue | Human | Cancer | Sichuan University | LC-MS |
| ST004032 | AN006669 | SIRT3 induces cell senescence via regulating deacetylation of SLC25A13 in colorectal cancer | Colorectal Tissue | Human | Cancer | Sichuan University | LC-MS |
| ST003985 | AN006564 | Glucose-activated JMJD1A drives visceral adipogenesis via α-ketoglutarate-dependent chromatin remodeling (Study part 6 of 5) | Embryonic cells | Mouse | Cancer | Tohoku University | CE-MS |
| ST003979 | AN006555 | Glucose-activated JMJD1A drives visceral adipogenesis via α-ketoglutarate-dependent chromatin remodeling (Study part 6 of 4) | Embryonic cells | Mouse | Cancer | Tohoku University | CE-MS |
| ST003978 | AN006553 | Glucose-activated JMJD1A drives visceral adipogenesis via α-ketoglutarate-dependent chromatin remodeling (Study part 6 of 3) | Embryonic cells | Mouse | Cancer | Tohoku University | CE-MS |
| ST003977 | AN006551 | Glucose-activated JMJD1A drives visceral adipogenesis via α-ketoglutarate-dependent chromatin remodeling (Study part 6 of 2) | Embryonic cells | Mouse | Cancer | Tohoku University | CE-MS |
| ST003976 | AN006549 | Glucose-activated JMJD1A drives visceral adipogenesis via α-ketoglutarate-dependent chromatin remodeling (Study part 6 of 1) | Embryonic cells | Mouse | Cancer | Tohoku University | CE-MS |
| ST003927 | AN006450 | Histidine decarboxylase inhibition attenuates cancer-associated muscle wasting | Muscle | Mouse | Cancer | Indiana University School of Medicine | LC-MS |
| ST003893 | AN006395 | Respiration defects limit serine synthesis required for lung cancer growth and survival - NSCLC rewires glycolytic metabolism to synthesize more serine from glucose (Tumors) | Tumor tissue | Mouse | Cancer | Rutgers University | LC-MS |
| ST003893 | AN006395 | Respiration defects limit serine synthesis required for lung cancer growth and survival - NSCLC rewires glycolytic metabolism to synthesize more serine from glucose (Tumors) | Tumor tissue | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003893 | AN006396 | Respiration defects limit serine synthesis required for lung cancer growth and survival - NSCLC rewires glycolytic metabolism to synthesize more serine from glucose (Tumors) | Tumor tissue | Mouse | Cancer | Rutgers University | LC-MS |
| ST003893 | AN006396 | Respiration defects limit serine synthesis required for lung cancer growth and survival - NSCLC rewires glycolytic metabolism to synthesize more serine from glucose (Tumors) | Tumor tissue | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003891 | AN006393 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Plasma | Blood | Mouse | Cancer | Rutgers University | LC-MS |
| ST003891 | AN006393 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Plasma | Blood | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003890 | AN006390 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Liver | Liver | Mouse | Cancer | Rutgers University | LC-MS |
| ST003890 | AN006390 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Liver | Liver | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003890 | AN006391 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Liver | Liver | Mouse | Cancer | Rutgers University | LC-MS |
| ST003890 | AN006391 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Liver | Liver | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003889 | AN006389 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Lung | Lung | Mouse | Cancer | Rutgers University | LC-MS |
| ST003889 | AN006389 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Lung | Lung | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003888 | AN006386 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Muscle | Muscle | Mouse | Cancer | Rutgers University | LC-MS |
| ST003888 | AN006386 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Tissues_Muscle | Muscle | Mouse | Lung cancer | Rutgers University | LC-MS |
| ST003884 | AN006379 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Em tumor derived cell lines (TDCLs) | Tumor cells | Mouse | Cancer | Rutgers Cancer Institute | LC-MS |
| ST003884 | AN006379 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Em tumor derived cell lines (TDCLs) | Tumor cells | Mouse | Lung cancer | Rutgers Cancer Institute | LC-MS |
| ST003884 | AN006380 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Em tumor derived cell lines (TDCLs) | Tumor cells | Mouse | Cancer | Rutgers Cancer Institute | LC-MS |
| ST003884 | AN006380 | Respiration defects limit serine synthesis required for lung cancer growth and survival - Effect of Polg mutation in NSCLC Em tumor derived cell lines (TDCLs) | Tumor cells | Mouse | Lung cancer | Rutgers Cancer Institute | LC-MS |
| ST003846 | AN006320 | Hepatic Coenzyme Q (CoQ) Deficiency Drives Reverse Electron Transport and Disrupts Hepatic Metabolic Homeostasis in Obesity | Liver | Mouse | Obesity | Harvard School of Public Health | LC-MS |
| ST003846 | AN006321 | Hepatic Coenzyme Q (CoQ) Deficiency Drives Reverse Electron Transport and Disrupts Hepatic Metabolic Homeostasis in Obesity | Liver | Mouse | Obesity | Harvard School of Public Health | LC-MS |
| ST003813 | AN006269 | Sulfur Amino Acid Restriction Enhances Exercise Capacity in Mice by Boosting Fat Oxidation in Muscle - extensor digitorum longus (EDL) versus soleus (Sol) on Con and SAAR diet metabolomics | Muscle | Mouse | Princeton University | LC-MS | |
| ST003813 | AN006270 | Sulfur Amino Acid Restriction Enhances Exercise Capacity in Mice by Boosting Fat Oxidation in Muscle - extensor digitorum longus (EDL) versus soleus (Sol) on Con and SAAR diet metabolomics | Muscle | Mouse | Princeton University | LC-MS | |
| ST003812 | AN006267 | Sulfur Amino Acid Restriction Enhances Exercise Capacity in Mice by Boosting Fat Oxidation in Muscle - metabolomics from CD36 x PdgfBcre vs WT mice on control or SAAR diet | Blood | Mouse | Princeton University | LC-MS | |
| ST003812 | AN006267 | Sulfur Amino Acid Restriction Enhances Exercise Capacity in Mice by Boosting Fat Oxidation in Muscle - metabolomics from CD36 x PdgfBcre vs WT mice on control or SAAR diet | Muscle | Mouse | Princeton University | LC-MS | |
| ST003812 | AN006268 | Sulfur Amino Acid Restriction Enhances Exercise Capacity in Mice by Boosting Fat Oxidation in Muscle - metabolomics from CD36 x PdgfBcre vs WT mice on control or SAAR diet | Blood | Mouse | Princeton University | LC-MS | |
| ST003812 | AN006268 | Sulfur Amino Acid Restriction Enhances Exercise Capacity in Mice by Boosting Fat Oxidation in Muscle - metabolomics from CD36 x PdgfBcre vs WT mice on control or SAAR diet | Muscle | Mouse | Princeton University | LC-MS | |
| ST003790 | AN006230 | Fecal metabolomics of B16-OVA tumor-bearing mice fed chow or low and high fiber purified diets and treated with isotype control or anti-PD-1 antibody | Feces | Mouse | Cancer | Princeton University | LC-MS |
| ST003741 | AN006142 | A Metabolite-Based Resistance Mechanism Against Malaria | Erythrocytes | Human | Malaria | European Molecular Biology Laboratory | LC-MS |
| ST003741 | AN006143 | A Metabolite-Based Resistance Mechanism Against Malaria | Erythrocytes | Human | Malaria | European Molecular Biology Laboratory | LC-MS |
| ST003724 | AN006644 | Metabolomic analysis of skeletal muscle from control WT, immobilized WT, control mFoxO1,3,4-/- and immobilized mFoxO1,3,4-/- mice. | Muscle | Mouse | Muscle atrophy | Kyoto Prefectural University | LC-MS |
| ST003723 | AN006642 | Metabolomic analysis of skeletal muscle from fed, starved and tumor-bearing mice. | Muscle | Mouse | Cancer | Kyoto Prefectural University | LC-MS |
| ST003722 | AN006640 | Metabolomic analysis of plasma from control, immobilized and FoxO1-Tg mice. | Blood | Mouse | Muscle atrophy | Kyoto Prefectural University | LC-MS |
| ST003712 | AN006093 | ndufs2-/- mitochondrial Leigh syndrome zebrafish model has shortened lifespan, morphologic anomalies, and altered one-carbon metabolism | Larvae | Zebrafish | Mitochondrial disease | Children's Hospital of Philadelphia | LC-MS |
| ST003673 | AN006031 | Identification of plasma metabolites responding to oxycodone exposure in rats | Blood | Rat | Addiction | University of Colorado Anschutz Medical Campus | Other |
| ST003662 | AN006015 | Metabolome trajectory of exercise physiology- a comprehensive study of healthy male and female athletes | Blood | Human | University of Vienna | LC-MS | |
| ST003655 | AN006005 | Bacteria-derived 3-hydroxydodecanoic acid induces a potent anti-tumor immune response via GPR84 receptor | Blood | Human | Cancer | Universitätsspital Zürich | MALDI-MS |
| ST003655 | AN006005 | Bacteria-derived 3-hydroxydodecanoic acid induces a potent anti-tumor immune response via GPR84 receptor | Blood | Mouse | Cancer | Universitätsspital Zürich | MALDI-MS |
| ST003626 | AN005956 | Metabolomic profile of human regulatory T cells. | T-cells | Human | Autoimmune disease | Jikei University School of Medicine | LC-MS |
| ST003586 | AN005889 | Metabolomics of the murine liver | Liver | Mouse | Diabetes | Teikyo University | LC-MS |
| ST003577 | AN005873 | Multi ‘omics indicate depth-discrete partitioning of nitrogen metabolism in a toxic Planktothrix rubescens bloom in the winter water column | Water | Lake water | University of Tennessee | LC-MS | |
| ST003565 | AN005857 | Metaboloomics analysis of the antimalarial compound WEHI-1888504 (aka compound 59) in Plasmodium falciparum (3D7) infected red blood cells | Cultured cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST003549 | AN005833 | Metabolomics analysis of kidney, brain, liver, and plasma from Aldh7a1-/- and Aldh7a1+/+ mice. | Blood | Mouse | Metabolic syndrome | University of British Columbia | LC-MS |
| ST003549 | AN005833 | Metabolomics analysis of kidney, brain, liver, and plasma from Aldh7a1-/- and Aldh7a1+/+ mice. | Tissue | Mouse | Metabolic syndrome | University of British Columbia | LC-MS |
| ST003549 | AN005834 | Metabolomics analysis of kidney, brain, liver, and plasma from Aldh7a1-/- and Aldh7a1+/+ mice. | Blood | Mouse | Metabolic syndrome | University of British Columbia | LC-MS |
| ST003549 | AN005834 | Metabolomics analysis of kidney, brain, liver, and plasma from Aldh7a1-/- and Aldh7a1+/+ mice. | Tissue | Mouse | Metabolic syndrome | University of British Columbia | LC-MS |
| ST003546 | AN005825 | Improved Soil Health and Pasture Phytochemical Richness Underlies Improved Beef Nutrient Density in Southern US Grass-Finished Beef Systems | Muscle | Cow | Utah State University | Other | |
| ST003523 | AN005785 | Hypermetabolism induced pantothenate depletion in MT-ATP6 neuropathy | Stem cells | Human | Neuropathy | University of Helsinki | LC-MS |
| ST003521 | AN005783 | Metabolic Profiling Unveils Enhanced Antibacterial Synergy of Polymyxin B and Teixobactin against Multi-Drug Resistant Acinetobacter baumannii | Bacterial cells | Acinetobacter baumannii | Bacterial infection | Monash University | LC-MS |
| ST003499 | AN005743 | Metabolic analysis of ADSL deficiency patients' EBV-LCLs. | Blood | Human | Mitochondrial disease | Catholic University of the Sacred Heart | LC-MS |
| ST003499 | AN005744 | Metabolic analysis of ADSL deficiency patients' EBV-LCLs. | Blood | Human | Mitochondrial disease | Catholic University of the Sacred Heart | LC-MS |
| ST003408 | AN005592 | Untargeted analysis of urine samples in a Longitudinal analysis of environmental exposures in pregnancy. | Urine | Human | Baylor College of Medicine | LC-MS | |
| ST003408 | AN005593 | Untargeted analysis of urine samples in a Longitudinal analysis of environmental exposures in pregnancy. | Urine | Human | Baylor College of Medicine | LC-MS | |
| ST003405 | AN005588 | Specific activation of the integrated stress response uncovers regulation of central carbon metabolism and lipid droplet biogenesis | Cultured cells | Human | Cancer | Calico Life Sciences | LC-MS |
| ST003405 | AN005589 | Specific activation of the integrated stress response uncovers regulation of central carbon metabolism and lipid droplet biogenesis | Cultured cells | Human | Cancer | Calico Life Sciences | LC-MS |
| ST003375 | AN005527 | Structural and systems characterization of phosphorylation on metabolic enzymes identifies sex-specific metabolic reprogramming in obesity | Liver | Mouse | Obesity | Massachusetts Institute of Technology | LC-MS |
| ST003349 | AN005485 | An integrated LC-MS analysis of the biometric characteristics of different time cohorts of race walkers - targeted | Blood | Human | First Affiliated Hospital of Dalian Medical University | LC-MS | |
| ST003347 | AN005482 | ADSL deficiency drives mitochondrial dysfunction and ERK2 dysregulation in a linear genotype to phenotype correlation | Skin | Human | Neuropathy | Catholic University of the Sacred Heart | LC-MS |
| ST003340 | AN005474 | Effect of feeding and the mTORC1 activity on metabolism in Caenorhabditis elegans | Worms | C. elegans | Hiroshima University | LC-MS | |
| ST003313 | AN005425 | Integrative analysis of serum and fecal metabolome and the microbiome that herald Crohn Disease flare - feces | Feces | Human | Crohns disease | Sheba hospital | Other |
| ST003313 | AN005425 | Integrative analysis of serum and fecal metabolome and the microbiome that herald Crohn Disease flare - feces | Feces | Human | Inflammatory bowel disease | Sheba hospital | Other |
| ST003298 | AN005402 | Annual changes on metabolomics profile in latex | Latex | Rubber tree | Sumitomo Riko Co., Ltd. | LC-MS | |
| ST003281 | AN005375 | Phosphate availability conditions caspofungin tolerance, capsule attachment and titan cell formation in Cryptococcus neoformans | Fungal cells | Cryptococcus neoformans | Meningoencephalitis | University of British Columbia | LC-MS |
| ST003254 | AN005333 | The impact of grass- and grain-finishing on metabolomic profiles of North American Black Angus Beef cattle. | Bovine meat | Cow | Duke University | Other | |
| ST003214 | AN005270 | Glutamine Tracing Assay in RquA AAV Injected Mice with a Standard Curve | Liver | Mouse | Hypoxia | UMass Chan Medical School | LC-MS |
| ST003199 | AN005249 | Metabolite profiling in the liver from fasted eIF4ES209A (S209A) mice compared to fasted wild type (WT) mice | Liver | Mouse | Cancer | University of Chicago | LC-MS |
| ST003179 | AN005221 | Property and Activity Refinement of Dihydroquinazolinone-3-carboxamides as Orally Efficacious Antimalarials that Target PfATP4 | Plasmodium cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST003161 | AN005186 | Diet-omics in the Study of Urban and Rural Crohn disease Evolution (SOURCE) cohort | Feces | Human | Inflammatory bowel disease | Sheba hospital | Other |
| ST003145 | AN005161 | Muscle-type specific stress responses explain the onset of external ophthalmoplegia in mitochondrial disease | Muscle | Mouse | Mitochondrial disease | University of Helsinki | LC-MS |
| ST003144 | AN005159 | On-target, dual aminopeptidase inhibition provides cross-species antimalarial activity | Blood | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST003143 | AN005157 | Mitochondrial complex I promotes kidney cancer metastasis | Kidney | Human | Cancer | University of Texas Southwestern Medical Center at Dallas | LC-MS |
| ST003143 | AN005157 | Mitochondrial complex I promotes kidney cancer metastasis | Tumor cells | Human | Cancer | University of Texas Southwestern Medical Center at Dallas | LC-MS |
| ST003143 | AN005158 | Mitochondrial complex I promotes kidney cancer metastasis | Kidney | Human | Cancer | University of Texas Southwestern Medical Center at Dallas | LC-MS |
| ST003143 | AN005158 | Mitochondrial complex I promotes kidney cancer metastasis | Tumor cells | Human | Cancer | University of Texas Southwestern Medical Center at Dallas | LC-MS |
| ST003132 | AN005139 | Untargeted Metabolomics on Mouse colonic mucosa | Colonic mucosa | Mouse | University College Cork | Other | |
| ST003128 | AN005128 | Effect of high fat diet on serum lipidome and metabolome in CHCHD10 Mutant Mice | Blood | Mouse | Cardiomyopathy | Weill Cornell Medicine | LC-MS |
| ST003126 | AN005125 | Effect of high fat diet on heart metabolome of CHCHD10 mutant mice | Heart | Mouse | Cardiomyopathy | Weill Cornell Medicine | LC-MS |
| ST003088 | AN005050 | Metabolome changes in embryonic CSF (Part 10) | Blood | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | LC-MS |
| ST003088 | AN005050 | Metabolome changes in embryonic CSF (Part 10) | Cerebrospinal fluid | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | LC-MS |
| ST003088 | AN005050 | Metabolome changes in embryonic CSF (Part 10) | Liver | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | LC-MS |
| ST003088 | AN005051 | Metabolome changes in embryonic CSF (Part 10) | Blood | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | LC-MS |
| ST003088 | AN005051 | Metabolome changes in embryonic CSF (Part 10) | Cerebrospinal fluid | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | LC-MS |
| ST003088 | AN005051 | Metabolome changes in embryonic CSF (Part 10) | Liver | Mouse | Autism | Boston Children's Hospital, Harvard Medical School | LC-MS |
| 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 | LC-MS | |
| 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 | LC-MS | |
| 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 | LC-MS | |
| 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 | LC-MS | |
| 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 | LC-MS | |
| 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 | LC-MS | |
| 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 | LC-MS | |
| ST003066 | AN005022 | Heritability of RBC metabolites: baseline correlation of metabolites and markers of RBC health and stability | Erythrocytes | Human | University of Iowa | Other | |
| ST003053 | AN005006 | Providing insight into the mechanism of action of Cationic Lipidated Oligomers (CLOs) using metabolomics | Bacterial cells | Staphylococcus aureus | Bacterial infection | Monash University | LC-MS |
| ST003053 | AN005007 | Providing insight into the mechanism of action of Cationic Lipidated Oligomers (CLOs) using metabolomics | Bacterial cells | Staphylococcus aureus | Bacterial infection | Monash University | LC-MS |
| ST003036 | AN004978 | 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 | LC-MS |
| ST003031 | AN004968 | Early time-restricted eating improves markers of cardiometabolic health but has no impact on nutrient absorption in healthy adults | Blood | Human | California Polytechnic State University, San Luis Obispo | LC-MS | |
| ST002998 | AN004925 | The role of gut microbiota in muscle mitochondria function, colon health, and sarcopenia: from clinical to bench | Bacterial cells | Faecalibacterium prausnitzii | Sarcopenia | Chinese University of Hong Kong | GC-MS/LC-MS |
| ST002998 | AN004925 | The role of gut microbiota in muscle mitochondria function, colon health, and sarcopenia: from clinical to bench | Bacterial cells | Lacticaseibacillus rhamnosus | Sarcopenia | Chinese University of Hong Kong | GC-MS/LC-MS |
| ST002984 | AN004903 | Amino acid catabolite markers for early prognostication of pneumonia in patients with COVID-19 | Blood | Human | COVID-19 | Kyoto University | LC-MS |
| ST002978 | AN004891 | Metabolite Profiling Of Vaginal Microbes In Suspension And Biofilm Cultures: Potential Target Against Bacterial Vaginosis | Bacterial cells | Gardenerella vaginalis | Bacterial Vaginosis | Purdue University | Other |
| ST002978 | AN004891 | Metabolite Profiling Of Vaginal Microbes In Suspension And Biofilm Cultures: Potential Target Against Bacterial Vaginosis | Bacterial cells | Lactobacillus crispatus | Bacterial Vaginosis | Purdue University | Other |
| ST002978 | AN004891 | Metabolite Profiling Of Vaginal Microbes In Suspension And Biofilm Cultures: Potential Target Against Bacterial Vaginosis | Bacterial cells | Lactobacillus iners | Bacterial Vaginosis | Purdue University | Other |
| ST002971 | AN004880 | Untargeted metabolomics of bioluminescent cell at T24h | Bacterial cells | Escherichia coli | Vidyasirimedhi Institute of Science and Technology | LC-MS | |
| ST002908 | AN004771 | Rumenomics: Evaluation of rumen metabolites content on phenotypical features of sheep | Rumen fluid | Sheep | Purdue University | Other | |
| ST002852 | AN004672 | MYC is a regulator of androgen receptor inhibition-induced metabolic requirements in prostate cancer | Prostate | Mouse | Cancer | University of California, Los Angeles | LC-MS |
| ST002837 | AN004637 | Bacterial tryptophan metabolites increased by prebiotic galactooligosaccharide reduce microglial reactivity and are associated with lower anxiety-like behavior (Blood) | Blood | Mouse | Anxiety | National Center for Advancing Translational Sciences | Other |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides fragilis | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides thetaiotaomicron | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides uniformis | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Blautia producta | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium clostridioforme | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hathewayi | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hylemonae | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium scindens | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium symbiosum | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecalis | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecium | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus hirae | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Escherichia fergusonii | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Flavonifractor plautii | Stanford University | LC-MS | |
| ST002832 | AN004625 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Parabacteroides distasonis | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides fragilis | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides thetaiotaomicron | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Bacteroides uniformis | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Blautia producta | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium clostridioforme | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hathewayi | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium hylemonae | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium scindens | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Clostridium symbiosum | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecalis | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus faecium | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Enterococcus hirae | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Escherichia fergusonii | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Flavonifractor plautii | Stanford University | LC-MS | |
| ST002832 | AN004626 | Resource competition predicts assembly of in vitro gut bacterial communities- HILIC | Bacterial cells | Parabacteroides distasonis | Stanford University | LC-MS | |
| ST002822 | AN004599 | Effect of ERR Agonist in Mouse Heart Post Pressure Overload | Heart | Mouse | Baylor College of Medicine | Other | |
| ST002809 | AN004566 | Role of cilia in mitochondrial function | Cultured cells | Dog | Kidney disease | Medical University of South Carolina | LC-MS |
| ST002809 | AN004566 | Role of cilia in mitochondrial function | Cultured cells | Mouse | Kidney disease | Medical University of South Carolina | LC-MS |
| ST002792 | AN004542 | Chemoproteomics validates selective targeting of Plasmodium M1 alanyl aminopeptidase as a cross-species strategy to treat malaria | Blood | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST002776 | AN004520 | Zebrafish Optic Nerve Regeneration, Tectum Metabolomics - 3 Days Post Crush | Eye tissue | Zebrafish | Eye disease | University of Miami | LC-MS |
| ST002775 | AN004518 | Zebrafish Retina Regeneration Metabolomics - 3 Days Post Crush | Eye tissue | Zebrafish | Eye disease | University of Miami | LC-MS |
| ST002761 | AN004487 | Metabolic responses of normal rat kidneys to a high salt intake (Urine) | Urine | Rat | Medical College of Wisconsin | LC-MS | |
| ST002760 | AN004483 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) | Kidney | Rat | Medical College of Wisconsin | LC-MS | |
| ST002760 | AN004484 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) | Kidney | Rat | Medical College of Wisconsin | LC-MS | |
| ST002759 | AN004479 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Kidney | Rat | Medical College of Wisconsin | LC-MS | |
| ST002759 | AN004480 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Kidney | Rat | Medical College of Wisconsin | LC-MS | |
| ST002754 | AN004468 | Metabolomics analysis of maternal obesity model | Blood | Mouse | Fatty liver disease | University of Bonn | LC-MS |
| ST002751 | AN004464 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 5) | Liver | Mouse | Cornell University | LC-MS | |
| ST002744 | AN004450 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 4) | Liver | Mouse | Cornell University | LC-MS | |
| ST002736 | AN004438 | Assessing mitochondrial bioenergetics in coronary artery disease: A translational multiomic tissue study in humans (The AMBITION study). | Heart | Human | Cardiovascular disease | Imperial College London | LC-MS |
| ST002584 | AN004256 | Metabolomics analysis of ALDH1L1-expressing HuH7 cell lines. | Cultured cells | Human | Cancer | Tohoku Medical and Pharmaceutical University | LC-MS |
| ST002555 | AN004207 | Ethnicity-Specific Differences in Ovarian Cancer Metabolic Signatures | Cultured cells | Human | Cancer | University of Oklahoma Health Sciences Center | LC-MS |
| ST002539 | AN004181 | Microbial metabolomic responses to changes in temperature and salinity along the western Antarctic Peninsula. | Suspended Marine Particulate Matter | Marine microbes | Abiotic stress | University of Washington, School of Oceanography | LC-MS |
| ST002513 | AN004138 | Gnotobiotic mice: Metabolites in serum of germ-free mice colonized with strains of gut bacterium Eggerthella lenta | Blood | Mouse | University of California, San Francisco | LC-MS | |
| 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 | LC-MS | |
| ST002505 | AN004126 | 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 | LC-MS |
| ST002477 | AN004046 | Neutrophil metabolomics in COVID-19 | Neutrophils | Human | COVID-19 | UT Southwestern Medical Center | LC-MS |
| ST002476 | AN004077 | High body temperature increases gut microbiota-dependent host resistance to influenza A virus and SARS-CoV-2 infection (Mouse) | Cecum | Mouse | COVID-19 | Keio University | CE-MS |
| ST002476 | AN004077 | High body temperature increases gut microbiota-dependent host resistance to influenza A virus and SARS-CoV-2 infection (Mouse) | Cecum | Mouse | Influenza | Keio University | CE-MS |
| ST002465 | AN004021 | Map of microbially induced metabolic changes across diverse body sites in mice - Mouse Data | Blood | Mouse | University of Calgary | LC-MS | |
| ST002465 | AN004021 | Map of microbially induced metabolic changes across diverse body sites in mice - Mouse Data | Intestine | Mouse | University of Calgary | LC-MS | |
| ST002465 | AN004021 | Map of microbially induced metabolic changes across diverse body sites in mice - Mouse Data | Liver | Mouse | University of Calgary | LC-MS | |
| ST002465 | AN004021 | Map of microbially induced metabolic changes across diverse body sites in mice - Mouse Data | Peritoneal fluid | Mouse | University of Calgary | LC-MS | |
| ST002465 | AN004021 | Map of microbially induced metabolic changes across diverse body sites in mice - Mouse Data | Spleen | Mouse | University of Calgary | LC-MS | |
| ST002465 | AN004021 | Map of microbially induced metabolic changes across diverse body sites in mice - Mouse Data | Urine | Mouse | University of Calgary | LC-MS | |
| ST002459 | AN004011 | 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 | LC-MS | |
| ST002459 | AN004013 | 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 | LC-MS | |
| ST002457 | AN004009 | Mouse kidney metabolomics (Whole kidney) | Kidney | Mouse | Chronic kidney disease | Hadassah Medical Center | LC-MS |
| ST002434 | AN003965 | Metabolomics analysis of heart from CHCHD10S59L/+ KI mice | Heart | Mouse | ALS | INSERM | LC-MS |
| ST002412 | AN003931 | Metabolic effects of the protein kinase R | Macrophages | Mouse | Hudson Institute of Medical Research | LC-MS | |
| ST002383 | AN003882 | Metabolomics of B-cell Acute Lymphoblastic Leukemia in Response to Adipocyte Conditioned Media | Cultured cells | Human | Cancer | Emory University | LC-MS |
| ST002377 | AN003873 | Hepatic Phosphatidylcholine Catabolism Driven by PNPLA7 and PNPLA8 Supplies Endogenous Choline to Replenish the Methionine Cycle with Methyl Groups (Pnpla7-knockout) | Liver | Mouse | Tokyo Metropolitan Institute of Medical Science | LC-MS | |
| ST002376 | AN003871 | Hepatic Phosphatidylcholine Catabolism Driven by PNPLA7 and PNPLA8 Supplies Endogenous Choline to Replenish the Methionine Cycle with Methyl Groups(Pnpla8-knockout) | Liver | Mouse | Tokyo Metropolitan Institute of Medical Science | LC-MS | |
| ST002361 | AN003855 | UCP2-dependent redox-sensing in POMC neurons regulates feeding | Cultured cells | Mouse | Columbia University | LC-MS | |
| ST002361 | AN003856 | UCP2-dependent redox-sensing in POMC neurons regulates feeding | Cultured cells | Mouse | Columbia University | LC-MS | |
| ST002352 | AN004098 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 2) | Liver | Mouse | Cornell University | LC-MS | |
| ST002349 | AN004096 | Biomolecular condensates create phospholipid-enriched microenvironments (Part 1) | Liver | Mouse | Cornell University | LC-MS | |
| ST002316 | AN003783 | Differential requirements for mitochondrial electron transport chain components in the adult murine liver - Untargeted Metabolomics (qTOF) | Liver | Mouse | Metabolic syndrome | University of Texas Southwestern Medical Center at Dallas | LC-MS |
| ST002292 | AN003744 | Quantification of Dissolved Metabolites in Environmental Samples through Cation-Exchange Solid Phase Extraction (CX-SPE) paired with Liquid Chromatography-Mass Spectrometry | Water | Seawater | University of Washington | LC-MS | |
| ST002287 | AN003739 | Enhanced systemic commensal E. coli immunogenicity through minor alteration of the metabolic profile | Bacterial cells | Escherichia coli | University of Calgary | LC-MS | |
| ST002266 | AN003701 | Kīlauea lava fuels phytoplankton bloom in the North Pacific Ocean - study of particulate metabolites | Water | Plankton | University of Washington | LC-MS | |
| ST002263 | AN003696 | Intermittent fasting induces rapid hepatocyte proliferation to maintain the hepatostat | Liver | Mouse | Stanford University | LC-MS | |
| ST002263 | AN003697 | Intermittent fasting induces rapid hepatocyte proliferation to maintain the hepatostat | Liver | Mouse | Stanford University | LC-MS | |
| ST002242 | AN003660 | Hypoxia promotes osteogenesis via regulating the acetyl-CoA-mediated mito-nuclear communication. | Cultured cells | Mouse | CECAD Research Center | LC-MS | |
| ST002231 | AN003641 | Metabolomics Analysis of HOG-EV and HOG-R132H Cells with and without BAY 2402234 Treatment | Cultured cells | Human | Cancer | UT Southwestern Medical Center | LC-MS |
| ST002224 | AN003633 | Intracellular metabolic profile of renal cells cultured in Plasmax | Cultured cells | Human | Cancer | CECAD Research Center | LC-MS |
| ST002223 | AN003632 | Metabolic profiling of mouse tissues and tissue interstitial fluids | Heart | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002223 | AN003632 | Metabolic profiling of mouse tissues and tissue interstitial fluids | Kidney | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002223 | AN003632 | Metabolic profiling of mouse tissues and tissue interstitial fluids | Liver | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002223 | AN003632 | Metabolic profiling of mouse tissues and tissue interstitial fluids | Lung | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002222 | AN003631 | Glutaminolysis contribution to the carbon backbone of aspartate and glutamate in ccRCC | Cultured cells | Human | Cancer | CECAD Research Center | LC-MS |
| ST002221 | AN003630 | Glutaminolysis contribution to the carbon backbone of aspartate through ATP Citrate Lyase (ACLY) in ccRCC | Cultured cells | Human | Cancer | CECAD Research Center | LC-MS |
| ST002218 | AN003627 | Effect of Hira loss in the metabolic landscape of Fh1-deficient cells Part 2 | Cultured cells | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002212 | AN003616 | Human fecal metabolome profiles under 3 different dietary terms | Feces | Human | Keio University | LC-MS | |
| ST002206 | AN003609 | Lipolysis-derived Lipids Determine Autophagy Initiation during Fasting | Worms | C. elegans | Seoul National University | LC-MS | |
| ST002205 | AN003608 | Effect of Hira loss in the metabolic landscape of Fh1-deficient cells | Cultured cells | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002199 | AN003599 | FOXA2 controls the anti-oxidant response in FH-deficient cells independent of NRF2 | Cultured cells | Mouse | Cancer | CECAD Research Center | LC-MS |
| ST002184 | AN003577 | Metabolic effect of the loss of mitochondrial-specific aspartyl-tRNA synthetase Das2 on mouse intestinal epithelial cells | Intestine | Mouse | CECAD Research Center | LC-MS | |
| ST002172 | AN003559 | Cecal metabolome of gnotobiotic (containing a 14-member synthetic human gut microbiota), and germ-free mice fed with two distinct rodent diets with varying fiber content. | Cecum | Mouse | Luxembourg Institute of Health | LC-MS | |
| ST002171 | AN003557 | Serum metabolome of specific-pathogen-free mice fed with five distinct rodent diets with varying fiber content and source. | Blood | Mouse | Luxembourg Institute of Health | LC-MS | |
| ST002153 | AN003526 | Data from plasma metabolome analysis of APP-KI and Wild type mice treated with B. breve MCC1274 | Blood | Mouse | Morinaga milk industry CO., LTD. | LC-MS | |
| ST002108 | AN003448 | 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 | LC-MS |
| 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 | LC-MS |
| ST002066 | AN003365 | Glutaminase inhibition impairs CD8 T cell activation in STK11/Lkb1 deficient lung cancer | Lung | Mouse | Cancer | Walter and Eliza Hall Institute of Medical Research | LC-MS |
| ST002016 | AN003284 | Metabolomics of COVID patients | Blood | Human | COVID-19 | University of Virginia | LC-MS |
| ST001986 | AN003237 | Fbxo7 promotes Cdk6 activity to inhibit PFKP and glycolysis in T cells | T-cells | Mouse | University of Cambridge | LC-MS | |
| ST001983 | AN003234 | Metabolomic Fingerprinting of Human High Grade Serous Ovarian Carcinoma Cell Lines | Ovarian cancer cells | Human | Cancer | University of Oklahoma Health Sciences Center | LC-MS |
| ST001922 | AN003123 | Sublytic membrane attack complex drives glycolysis and mitochondrial dysfunction with inflammatory consequences in human monocyte-derived macrophages | Macrophages | Human | GSK | LC-MS | |
| ST001922 | AN003124 | Sublytic membrane attack complex drives glycolysis and mitochondrial dysfunction with inflammatory consequences in human monocyte-derived macrophages | Macrophages | Human | GSK | LC-MS | |
| ST001875 | AN003037 | Metabolomics analysis of multiple samples on AB 5600-Part 2 | Feces | Mouse | Dalian Institute Of Chemical Physics | LC-MS | |
| ST001875 | AN003037 | Metabolomics analysis of multiple samples on AB 5600-Part 2 | Liver | Mouse | Dalian Institute Of Chemical Physics | LC-MS | |
| ST001873 | AN003035 | Metabolomics analysis of multiple samples on AB 5600-Part 1 | Blood | Human | Dalian Institute Of Chemical Physics | LC-MS | |
| ST001873 | AN003035 | Metabolomics analysis of multiple samples on AB 5600-Part 1 | Hep G2 cells | Human | Dalian Institute Of Chemical Physics | LC-MS | |
| ST001873 | AN003035 | Metabolomics analysis of multiple samples on AB 5600-Part 1 | Urine | Human | Dalian Institute Of Chemical Physics | LC-MS | |
| ST001870 | AN003032 | Effects of GP130 Antagonism on Right Ventricular Metabolism in Monocrotaline Rats | Heart | Rat | University of Minnesota | LC-MS | |
| ST001869 | AN003031 | WNK463 Inhibition on Right Ventricular metabolomics | Heart | Rat | Hypertension | University of Minnesota | LC-MS |
| ST001866 | AN003027 | Systemic metabolite changes due to PHD inhibition | Blood | Mouse | Northwestern University | LC-MS | |
| ST001865 | AN003024 | Systemic metabolite changes due to Hypoxia | Blood | Mouse | Northwestern University | LC-MS | |
| ST001835 | AN002977 | Use of Integrated Metabolomics, Transcriptomics, and Signal Protein Profile to Characterize the Effector Function and Associated Metabotype of Polarized Macrophage Phenotypes | Blood | Human | Idaho Veterans Research and Education Foundation | LC-MS | |
| ST001788 | AN002899 | β-Adrenergic regulation of metabolism in macrophages (part-IV) | Macrophages | Human | Monash University | LC-MS | |
| ST001783 | AN002894 | Performance of Three Differential Metabolites at Different TSS within 20 days | Blood | Mouse | Hebei medical university | LC-MS | |
| ST001782 | AN002893 | Examining the Identified Differential Metabolites in Other Antipsychotics with a High Fatality Frequency (part IV) | Blood | Mouse | Hebei medical university | LC-MS | |
| ST001781 | AN002892 | Identifying Candidate Differential Metabolites in lethal chlorpromazine poisoning Relative to non-drug related deaths (part III) | Blood | Mouse | Hebei medical university | LC-MS | |
| ST001775 | AN002882 | Plasma metabolomics of diverse mouse strains infected with Plasmodium chabaudi | Blood | Mouse | Malaria | Stanford University | LC-MS |
| ST001746 | AN002842 | Examining the Identified Differential Metabolites in Other Antipsychotics with a High Fatality Frequency | Blood | Mouse | Hebei medical university | LC-MS | |
| ST001745 | AN002838 | Metabolomic profiling of the rat hippocampus across developmental ages and after learning | Brain | Rat | New York University | LC-MS | |
| ST001739 | AN002832 | Differential Metabolites and Disturbed Metabolic Pathways Associated with chlorpromazine Poisoning | Blood | Mouse | Hebei medical university | LC-MS | |
| ST001688 | AN002756 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism (part-II) | Bacterial cells | Bacteria | Stanford University | LC-MS | |
| ST001688 | AN002757 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism (part-II) | Bacterial cells | Bacteria | Stanford University | LC-MS | |
| ST001688 | AN002758 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism (part-II) | Bacterial cells | Bacteria | Stanford University | LC-MS | |
| ST001683 | AN002747 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Blood | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002747 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Cecum | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002747 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Feces | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002747 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Urine | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002748 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Blood | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002748 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Cecum | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002748 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Feces | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002748 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Urine | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002749 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Blood | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002749 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Cecum | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002749 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Feces | Mouse | Stanford University | LC-MS | |
| ST001683 | AN002749 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism. | Urine | Mouse | Stanford University | LC-MS | |
| ST001680 | AN002739 | Metabolome of NAFLD in high fat diet mouse model | Liver | Mouse | Fatty liver disease | Weill Cornell Medicine | LC-MS |
| ST001671 | AN002727 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism | Bacterial cells | Bacteria | Stanford University | LC-MS | |
| ST001671 | AN002728 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism | Bacterial cells | Bacteria | Stanford University | LC-MS | |
| ST001671 | AN002729 | A gut microbe-focused metabolomics pipeline enables mechanistic interrogation of microbiome metabolism | Bacterial cells | Bacteria | Stanford University | LC-MS | |
| ST001668 | AN002720 | D-Allulose effects on hepatic metabolomics profile in rodents | Liver | Rat | Matsutani Chemical Industry Co., Ltd. | LC-MS | |
| ST001547 | AN002576 | β-Adrenergic regulation of metabolism in macrophages | Macrophages | Human | Monash University | LC-MS | |
| ST001439 | AN002403 | Metabolites in contents of small intestine in wild type and DAOG181R/G181R mice | Small intestine | Mouse | Keio University | MS(Dir. Inf.) | |
| ST001404 | AN002346 | Ontogeny related changes in the pediatric liver metabolome (part-III) | Liver | Human | Moffitt Cancer Center | LC-MS | |
| ST001402 | AN002344 | Ontogeny related changes in the pediatric liver metabolome | Liver | Human | Moffitt Cancer Center | LC-MS | |
| ST001373 | AN002293 | Targeting Sirt2 reprograms T cell metabolism for effective immune response | Spleen | Mouse | Moffitt Cancer Center | LC-MS | |
| ST001335 | AN002224 | Air Pollution, Placenta Function, and Birth Outcomes in Los Angeles in the Placental Assessment in Response to ENvironmenTal pollution study (PARENTs) cohort | Blood | Human | Environmental exposure | Emory University | LC-MS |
| ST001301 | AN002166 | Luminal metabolome profiles of human microbiota-associated (HMA) mice treated with anti-IL-22 antibody or control antibody | Feces | Mouse | Bacterial infection | University of Michigan | LC-MS |
| ST001300 | AN002164 | Luminal metabolome profiles ofUC-HMA mice transplanted with a healthy human-derived fecal microbiota (FMT). | Feces | Mouse | Bacterial infection | University of Michigan | LC-MS |
| ST001253 | AN002081 | Phenotyping Mouse blood metabolites in day and night in type 2 diabetes | Blood | Mouse | Diabetes | Indiana University School of Medicine | LC-MS |
| ST001218 | AN002031 | Wild type versus TRACK Mice on regular chow and Vitamin A deprived diet | Kidney | Mouse | Cancer | Weill Cornell Medicine | LC-MS |
| ST001205 | AN002006 | Peroxide antimalarial treatment of K13-mutant and -wildtype P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | LC-MS |
| ST001205 | AN002006 | Peroxide antimalarial treatment of K13-mutant and -wildtype P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST001204 | AN002004 | Peroxide antimalarial extended treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | LC-MS |
| ST001204 | AN002004 | Peroxide antimalarial extended treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST001202 | AN002000 | Peroxide antimalarial treatment timecourse on ring-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | LC-MS |
| ST001202 | AN002000 | Peroxide antimalarial treatment timecourse on ring-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST001201 | AN001998 | Peroxide antimalarial treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Human | Malaria | Monash University | LC-MS |
| ST001201 | AN001998 | Peroxide antimalarial treatment timecourse on trophozoite-stage P. falciparum parasites | Cultured cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST001178 | AN001954 | Metabolomic analysis of C2C12 myoblasts induced by the transcriptional factor FOXO1 | Muscle | Mouse | Kyoto Prefectural University | CE-MS | |
| ST001157 | AN001915 | The gut microbiota plays a central role to modulate the plasma metabolome in response to chronic Angiotensin II infusion (part-I) | Blood | Mouse | Johns Hopkins University | LC-MS | |
| ST001153 | AN001903 | Erythrocyte adenosine A2B receptor-mediated AMPK activation: Counteracting CKD by promoting oxygen delivery | Blood | Mouse | Kidney disease | University of Texas Health Science Center at Houston | GC-MS |
| ST001144 | AN001886 | Microbial depletion and ozone exposure - serum (part II) | Blood | Mouse | Asthma | Harvard School of Public Health | GC-MS/LC-MS |
| ST001143 | AN001882 | Microbial depletion and ozone exposure - Lung tissue (part I) | Lung | Mouse | Asthma | Harvard School of Public Health | GC-MS/LC-MS |
| ST001048 | AN001716 | Pediatric Inner-City Environmental Exposures at School and Home and Asthma Study | Urine | Human | Asthma | Icahn School of Medicine at Mount Sinai | LC-MS |
| ST000867 | AN001396 | Metabolic Profiling of Date Palm Fruits (part II) | Date palm fruit | Date palm | Weill Cornell Medicine, Qatar | GC-MS/LC-MS | |
| ST000842 | AN001357 | Muscle and plasma before and after exercise | Blood | Human | Obesity | University of Michigan | LC-MS |
| ST000841 | AN001350 | Metabolomics of muscle in insulin sensitive and resistant obese indivduals. | Muscle | Human | Obesity | University of Michigan | LC-MS |
| ST000815 | AN001291 | db/db WT ozone and air exposed mice | Lung | Mouse | Ozone Stress | Harvard School of Public Health | GC-MS/LC-MS |
| ST000775 | AN001223 | Michigan Biomarkers for Refractory Depression (Bluebird) metabolomics pilot study | Blood | Human | Depression | University of Michigan | LC-MS |
| ST000758 | AN001191 | Effects of caloric restriction in HCR/LCR rats | Unspecified | Rat | University of Michigan | LC-MS | |
| ST000756 | AN001187 | Metabolomics of cilia and modulation of renal microcirculation | Blood | Rat | University of Michigan | LC-MS | |
| ST000751 | AN001179 | Mouse placentas-DEHP exposure (part II) | Placenta | Mouse | University of Michigan | LC-MS | |
| ST000748 | AN001172 | Placental cells (BeWo) phthalate exposure metabolomics | Cultured cells | Human | University of Michigan | LC-MS | |
| ST000746 | AN001170 | Metabolomics of mice inoculated with human stool | Blood | Mouse | University of Michigan | LC-MS | |
| ST000745 | AN001167 | Metabolomics of mice inoculated with human microbiota | Blood | Mouse | University of Michigan | LC-MS | |
| ST000745 | AN001168 | Metabolomics of mice inoculated with human microbiota | Blood | Mouse | University of Michigan | LC-MS | |
| ST000742 | AN001157 | Metabolite-phenotype link in X-linked Adrenoleukodystrophy (part II) | Brain | Human | Adrenoleukodystrophy | University of Michigan | LC-MS |
| ST000741 | AN001155 | Metabolite-phenotype link in X-linked Adrenoleukodystrophy (fibroblast cell culture) | Cultured cells | Human | Adrenoleukodystrophy | University of Michigan | LC-MS |
| ST000741 | AN001156 | Metabolite-phenotype link in X-linked Adrenoleukodystrophy (fibroblast cell culture) | Cultured cells | Human | Adrenoleukodystrophy | University of Michigan | LC-MS |
| ST000724 | AN001134 | Red squirrels age related changes | Blood | Squirrel | University of Michigan | LC-MS | |
| ST000724 | AN001135 | Red squirrels age related changes | Blood | Squirrel | University of Michigan | LC-MS | |
| ST000722 | AN001129 | Metabolomics of Diapause in Aedes albopictus | Eggs | Mosquito | University of Michigan | LC-MS | |
| ST000698 | AN001083 | Metabolomics analysis of Sirt5 knockdown (KD) melanoma | Unspecified | Human | University of Michigan | LC-MS | |
| ST000698 | AN001084 | Metabolomics analysis of Sirt5 knockdown (KD) melanoma | Unspecified | Human | University of Michigan | LC-MS | |
| ST000697 | AN001081 | Cytokines correlation with metabolomic profiling of psoriatic and normal skin | Keratinocytes | Human | University of Michigan | LC-MS | |
| ST000697 | AN001082 | Cytokines correlation with metabolomic profiling of psoriatic and normal skin | Keratinocytes | Human | University of Michigan | LC-MS | |
| ST000696 | AN001079 | Brain-Immune system-Gut Interaction in Chronic Mild Stress (CMS +/- Lacto) | Unspecified | Mouse | Stress | University of Michigan | LC-MS |
| ST000696 | AN001080 | Brain-Immune system-Gut Interaction in Chronic Mild Stress (CMS +/- Lacto) | Unspecified | Mouse | Stress | University of Michigan | LC-MS |
| ST000694 | AN001073 | Differences in bile acids composition between ASCL5 knockout and floxed mice. | Intestine | Mouse | University of Michigan | LC-MS | |
| ST000694 | AN001074 | Differences in bile acids composition between ASCL5 knockout and floxed mice. | Intestine | Mouse | University of Michigan | LC-MS | |
| ST000693 | AN001071 | Lanthanide-mineral induced alteration of bile acid metabolism in a murine model of steatohepatitis (part II) | Unspecified | Mouse | Fatty liver disease | University of Michigan | LC-MS |
| ST000693 | AN001072 | Lanthanide-mineral induced alteration of bile acid metabolism in a murine model of steatohepatitis (part II) | Unspecified | Mouse | Fatty liver disease | University of Michigan | LC-MS |
| ST000692 | AN001069 | Metabolites produced by strains associated with inflammation | Bacterial cells | Treponema | Inflammation | University of Michigan | LC-MS |
| ST000692 | AN001070 | Metabolites produced by strains associated with inflammation | Bacterial cells | Treponema | Inflammation | University of Michigan | LC-MS |
| ST000689 | AN001063 | Influence of Noxa knockdown on cell metabolism | Cultured cells | Human | University of Michigan | LC-MS | |
| ST000689 | AN001064 | Influence of Noxa knockdown on cell metabolism | Cultured cells | Human | University of Michigan | LC-MS | |
| ST000570 | AN000878 | Metabolome analysis of the cecal contents of GF mice and GF mice colonized with dominant gut microbes present in the ceca of neonatal and adult mice | Feces | Mouse | Keio University | LC-MS | |
| ST000546 | AN000832 | Multi-omics based identification of specific biochemical changes associated with PfKelch13-mutant artemisinin resistant Plasmodium | Cells | Plasmodium falciparum | Malaria | Monash University | LC-MS |
| ST000508 | AN000778 | Metabolic Profiling of Date Palm Fruits | Plant | Date palm | Weill Cornell Medicine, Qatar | GC-MS/LC-MS | |
| ST000452 | AN000708 | The alpha-1A adrenergic receptor agonist A61603 reduces cardiac polyunsaturated fatty acid-Serum raw data | Blood | Mouse | University of North Carolina at Chapel Hill | GC-MS | |
| ST000451 | AN000707 | The alpha-1A adrenergic receptor agonist A61603 reduces cardiac polyunsaturated fatty acid-Heart raw data | Muscle | Mouse | University of North Carolina at Chapel Hill | GC-MS | |
| ST000352 | AN000572 | Metabolic profiling reveals biochemical pathways and potential biomarkers associated with the pathogenesis of Krabbe disease | Brain | Mouse | Krabbe disease | University at Buffalo | GC-MS/LC-MS |
| ST000335 | AN000541 | Metabolomics of bovine uterine fluid at the onset of conceptus elongation | Uterus | Cow | University of Florida | LC-MS | |
| ST000260 | AN000413 | Analysis of DJ-1 Knockout Mouse Brains | Brain | Mouse | National Institute on Aging | GC-MS/LC-MS | |
| ST000231 | AN000346 | Comprehensive analysis of transcriptome and metabolome in Intrahepatic Cholangiocarcinoma and Hepatocellular Carcinoma (part II) | Liver | Human | Cancer | Osaka City University | LC-MS |
| ST000230 | AN000344 | Comprehensive analysis of transcriptome and metabolome in Intrahepatic Cholangiocarcinoma and Hepatocellular Carcinoma | Liver | Human | Cancer | Osaka City University | LC-MS |
| ST000106 | AN000175 | IWMS Study 1:Weight comparison of obese and lean patients | Blood | Human | Obesity | University of Michigan | LC-MS |
| ST000106 | AN000176 | IWMS Study 1:Weight comparison of obese and lean patients | Blood | Human | Obesity | University of Michigan | LC-MS |
| ST000105 | AN000173 | SCOR Metabolomics | Blood | Human | University of Michigan | LC-MS | |
| ST000105 | AN000174 | SCOR Metabolomics | Blood | Human | University of Michigan | LC-MS | |
| ST000093 | AN000148 | Metabolomics Analysis of Frontal Fibrosing Alopecia | Scalp | Human | Alopecia | Case Western Reserve University | GC-MS/LC-MS |
| ST000090 | AN000143 | Caloric Restriction vs drugs | Blood | Mouse | University of Michigan | LC-MS | |
| ST000044 | AN000068 | Pilot experiment looking for the existence of certain molecules in pancreatic cancer cells | Pancreas | Human | Cancer | University of Michigan | LC-MS |
| ST000044 | AN000069 | Pilot experiment looking for the existence of certain molecules in pancreatic cancer cells | Pancreas | Human | Cancer | University of Michigan | LC-MS |
| ST000043 | AN000070 | MDA-MB-231 cells and p38 gamma knockdown | Cells | Human | University of Michigan | LC-MS | |
| ST000042 | AN000065 | BALF Control vs ALI by RPLC-MS | Lung | Human | University of Michigan | LC-MS | |
| ST000041 | AN000063 | High PUFA diet in humans | Blood | Human | University of Michigan | LC-MS | |
| ST000040 | AN000060 | Heatshock response of C. elegans using IROA (I) | Worms | C. elegans | University of Florida | LC-MS | |
| ST000040 | AN000061 | Heatshock response of C. elegans using IROA (I) | Worms | C. elegans | University of Florida | LC-MS | |
| ST000017 | AN000034 | Rat HCR/LCR Stamina Study | Blood | Rat | University of Michigan | LC-MS | |
| ST000016 | AN000033 | NPM-ALK metabolic regulation | Lymphoma cells | Human | University of Michigan | LC-MS |
