Perform MS precursor ion search on unidentified ions in LC-MS studies
Click on Study ID link to show tableStudy ID | Study Title | Institute | MS Analysis Type |
---|---|---|---|
ST000009 | Mixed meal tolerance | University of Michigan | LC/Electro-spray /QTOF positive ion mode |
ST000009 | Mixed meal tolerance | University of Michigan | LC/Electro-spray /QTOF negative ion mode |
ST000010 | Lung Cancer Cells 4 | University of Michigan | LC/Electro-spray /QTOF positive ion mode |
ST000010 | Lung Cancer Cells 4 | University of Michigan | LC/Electro-spray /QTOF negative ion mode |
ST000011 | African Metabolomics | University of Michigan | LC/Electro-spray /QTOF positive ion mode |
ST000011 | African Metabolomics | University of Michigan | LC/Electro-spray /QTOF negative ion mode |
ST000016 | NPM-ALK metabolic regulation | University of Michigan | LC/MS positive ion mode |
ST000017 | Rat HCR/LCR Stamina Study | University of Michigan | LC/Electro-spray /QTOF positive ion mode |
ST000017 | Rat HCR/LCR Stamina Study | University of Michigan | LC/Electro-spray /QTOF negative ion mode |
ST000041 | High PUFA diet in humans | University of Michigan | MS negative ion mode |
ST000041 | High PUFA diet in humans | University of Michigan | MS positive ion mode |
ST000042 | BALF Control vs ALI by RPLC-MS | University of Michigan | MS positive ion mode |
ST000042 | BALF Control vs ALI by RPLC-MS | University of Michigan | MS negative ion mode |
ST000043 | MDA-MB-231 cells and p38 gamma knockdown | University of Michigan | MS positive ion mode |
ST000044 | Pilot experiment looking for the existence of certain molecules in pancreatic cancer cells | University of Michigan | MS positive ion mode |
ST000044 | Pilot experiment looking for the existence of certain molecules in pancreatic cancer cells | University of Michigan | MS negative ion mode |
ST000054 | Metabolic Microenvironments in Normal Breast and Breast Cancer (MS analysis) | RTI International | MS positive ion mode |
ST000055 | Effect of kinase inhibitors on FLT3-ITD AML cell metabolomes | RTI International | MS positive ion mode |
ST000058 | Metabolite changes associated with methionine stress sensitivity of cancer (GC TOF MS analysis) | University of California, Davis | MS positive ion mode |
ST000062 | Biomarkers for Depression in Human Plasma in a Population Sample | University of California, Davis | MS positive ion mode |
ST000063 | Biomarkers for Depression in Human Cerebrospinal Fluid in a Population Sample | University of California, Davis | MS positive ion mode |
ST000069 | Metabolomic profiling of influenza: a 2009 pandemic H1N1 influenza in lean and obese mice (via blood and tissue) | RTI International | MS positive ion mode |
ST000069 | Metabolomic profiling of influenza: a 2009 pandemic H1N1 influenza in lean and obese mice (via blood and tissue) | RTI International | MS negative ion mode |
ST000070 | Metabolomic profiling of influenza: a 2009 pandemic H1N1 influenza in lean and obese mice (via tissue) | RTI International | MS positive ion mode |
ST000070 | Metabolomic profiling of influenza: a 2009 pandemic H1N1 influenza in lean and obese mice (via tissue) | RTI International | MS negative ion mode |
ST000071 | Metabolomic profiling of influenza: a 2009 pandemic H1N1 influenza in lean and obese mice (via Urine) | RTI International | MS positive ion mode |
ST000071 | Metabolomic profiling of influenza: a 2009 pandemic H1N1 influenza in lean and obese mice (via Urine) | RTI International | MS negative ion mode |
ST000072 | Effect of diet and age on ovarian metabolome (via tissue) | RTI International | ESI/QTOF positive ion mode |
ST000072 | Effect of diet and age on ovarian metabolome (via tissue) | RTI International | ESI/QTOF negative ion mode |
ST000073 | Effect of diet and age on ovarian metabolome (serum metabolome compared to ovarian) | RTI International | ESI/QTOF positive ion mode |
ST000073 | Effect of diet and age on ovarian metabolome (serum metabolome compared to ovarian) | RTI International | ESI/QTOF negative ion mode |
ST000074 | Genetic effects of high fat diet on mouse fecal metabolomics | RTI International | ESI/QTOF positive ion mode |
ST000074 | Genetic effects of high fat diet on mouse fecal metabolomics | RTI International | ESI/QTOF negative ion mode |
ST000075 | Combined Metabolomics and Lipidomics of Type 1 Diabetes (QTOF) | University of California, Davis | ESI/QTOF positive ion mode |
ST000075 | Combined Metabolomics and Lipidomics of Type 1 Diabetes (QTOF) | University of California, Davis | ESI/QTOF negative ion mode |
ST000077 | Metabolite changes associated with methionine stress sensitivity of cancer (CSH QTOF MS analysis) | University of California, Davis | ESI/QTOF positive ion mode |
ST000077 | Metabolite changes associated with methionine stress sensitivity of cancer (CSH QTOF MS analysis) | University of California, Davis | ESI/QTOF negative ion mode |
ST000081 | Metabolic Profiling of Visceral and Subcutaneous Adipose Tissue from Colorectal Cancer Patients: UHPLC-QTOF MS analyis of subcutaneous and visceral adipose tissue samples | University of California, Davis | ESI/QTOF positive ion mode |
ST000081 | Metabolic Profiling of Visceral and Subcutaneous Adipose Tissue from Colorectal Cancer Patients: UHPLC-QTOF MS analyis of subcutaneous and visceral adipose tissue samples | University of California, Davis | ESI/QTOF negative ion mode |
ST000082 | Metabolic Profiling of Visceral and Subcutaneous Adipose Tissue from Colorectal Cancer Patients: UHPLC-QTOF MS analyis of serum samples | University of California, Davis | ESI/QTOF positive ion mode |
ST000082 | Metabolic Profiling of Visceral and Subcutaneous Adipose Tissue from Colorectal Cancer Patients: UHPLC-QTOF MS analyis of serum samples | University of California, Davis | ESI/QTOF negative ion mode |
ST000089 | A study of changes in lipid metabolism of ovarian cancer cells co-cultured with adipocytes: UHPLC-QTOF MS analysis | University of California, Davis | UHPLC-QTOFMS positive ion mode |
ST000089 | A study of changes in lipid metabolism of ovarian cancer cells co-cultured with adipocytes: UHPLC-QTOF MS analysis | University of California, Davis | UHPLC-QTOFMS negative ion mode |
ST000105 | SCOR Metabolomics | University of Chicago | MS Q-TOF 6530 positive ion mode |
ST000105 | SCOR Metabolomics | University of Chicago | ESI negative ion mode |
ST000106 | IWMS Study 1:Weight comparison of obese and lean patients | University of Michigan | ESI positive ion mode |
ST000106 | IWMS Study 1:Weight comparison of obese and lean patients | University of Michigan | ESI negative ion mode |
ST000119 | Metabolomics analysis of multiple metabolic functions in the YjgF/YER057c/UK114 (Rid) protein family LCMS | University of California, Davis | ESI positive ion mode |
ST000119 | Metabolomics analysis of multiple metabolic functions in the YjgF/YER057c/UK114 (Rid) protein family LCMS | University of California, Davis | ESI negative ion mode |
ST000163 | Metabolomics of 50 healthy humans and common marmosets (MetabNet) | Emory University | HESI positive ion mode |
ST000220 | Small cell lung cancer metabolome (part II) | RTI International | ESI positive ion mode |
ST000220 | Small cell lung cancer metabolome (part II) | RTI International | ESI Negative ion mode |
ST000221 | Normal plasma cells,Low proliferation multiple myeloma and High proliferation multiple myeloma cells | Mayo Clinic | Positive ion mode C18 |
ST000221 | Normal plasma cells,Low proliferation multiple myeloma and High proliferation multiple myeloma cells | Mayo Clinic | Negative ion mode C18 |
ST000221 | Normal plasma cells,Low proliferation multiple myeloma and High proliferation multiple myeloma cells | Mayo Clinic | Positive ion mode HILIC |
ST000230 | Comprehensive analysis of transcriptome and metabolome in Intrahepatic Cholangiocarcinoma and Hepatocellular Carcinoma | Osaka City University | ESI negative ion mode |
ST000230 | Comprehensive analysis of transcriptome and metabolome in Intrahepatic Cholangiocarcinoma and Hepatocellular Carcinoma | Osaka City University | ESI positive ion mode |
ST000231 | Comprehensive analysis of transcriptome and metabolome in Intrahepatic Cholangiocarcinoma and Hepatocellular Carcinoma (part II) | Osaka City University | ESI negative ion mode |
ST000231 | Comprehensive analysis of transcriptome and metabolome in Intrahepatic Cholangiocarcinoma and Hepatocellular Carcinoma (part II) | Osaka City University | ESI positive ion mode |
ST000232 | Untargeted metabolomic analysis of the small intestinal content of malnourished mice | University of Victoria | ESI positive ion mode |
ST000232 | Untargeted metabolomic analysis of the small intestinal content of malnourished mice | University of Victoria | ESI negative ion mode |
ST000234 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv1130 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000234 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv1130 | Weill Cornell Medical College | ESI/QTOF negative ion mode |
ST000235 | Sprague Dawley rats Nicotine alters brain oxidative metabolism | University of Florida | ESI positive ion mode |
ST000235 | Sprague Dawley rats Nicotine alters brain oxidative metabolism | University of Florida | ESI negative ion mode |
ST000236 | Quick Comparison of Urine Metabolites in Human and SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Positive ion mode (Human:M/F) |
ST000236 | Quick Comparison of Urine Metabolites in Human and SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Positive ion mode (Rat:M/F) |
ST000236 | Quick Comparison of Urine Metabolites in Human and SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Positive ion mode (Human:M/F, Rat:M/F) |
ST000236 | Quick Comparison of Urine Metabolites in Human and SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Negative ion mode (Human:M/F) |
ST000236 | Quick Comparison of Urine Metabolites in Human and SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Negative ion mode (Rat:M/F) |
ST000236 | Quick Comparison of Urine Metabolites in Human and SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Negative ion mode (Human:M/F, Rat:M/F) |
ST000237 | Quick Comparison of Serum Metabolites in SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI positive ion mode |
ST000237 | Quick Comparison of Serum Metabolites in SD Rats of Different Sex by Untargeted UPLC-TOFMS and In-house Software Platform | Beijing Institute of Radiation Medicine | ESI LCMS Negative ion mode (Rat:M/F) |
ST000239 | Sexual antagonism in exuded non-volatile metabolites in C. purpureus | University of Florida | ESI positive ion mode |
ST000239 | Sexual antagonism in exuded non-volatile metabolites in C. purpureus | University of Florida | ESI Negative ion mode |
ST000240 | Global LC-MS of Ozone Stress in Maize: GLCMS | University of Florida | HESI positive ion mode |
ST000240 | Global LC-MS of Ozone Stress in Maize: GLCMS | University of Florida | HESI negative ion mode |
ST000243 | Metabolomic-based investigation on the effects of antifungal agents in Candida albicans | University of Florida | ESI positive ion mode |
ST000243 | Metabolomic-based investigation on the effects of antifungal agents in Candida albicans | University of Florida | ESI negative ion mode |
ST000244 | Metabolomic Diagnosis in Horse | University of Florida | ESI positive ion mode |
ST000244 | Metabolomic Diagnosis in Horse | University of Florida | ESI negative ion mode |
ST000258 | Metabolic contribution of pSymA and pSymB megaplasmid/chromid for multipartite Sinorhizobium meliloti cultured in minimal M9 medium | McMaster University | ESI/QTOF positive ion mode |
ST000258 | Metabolic contribution of pSymA and pSymB megaplasmid/chromid for multipartite Sinorhizobium meliloti cultured in minimal M9 medium | McMaster University | ESI/QTOF negative ion mode |
ST000259 | Metabolic contribution of pSymA and pSymB megaplasmid/chromid for multipartite Sinorhizobium meliloti cultured in rich LBmc medium | McMaster University | ESI/QTOF positive ion mode |
ST000259 | Metabolic contribution of pSymA and pSymB megaplasmid/chromid for multipartite Sinorhizobium meliloti cultured in rich LBmc medium | McMaster University | ESI/QTOF negative ion mode |
ST000262 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv1713 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000262 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv1713 | Weill Cornell Medical College | ESI/QTOF negative ion mode |
ST000263 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv1016 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000263 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv1016 | Weill Cornell Medical College | ESI/QTOF negative ion mode |
ST000264 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3280 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000264 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3280 | Weill Cornell Medical College | ESI/QTOF negative ion mode |
ST000265 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3244 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000265 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3244 | Weill Cornell Medical College | ESI/QTOF negative ion mode |
ST000266 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3801 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000266 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3801 | Weill Cornell Medical College | ESI QTOF Negative ion mode |
ST000267 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3722c | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000267 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3722c | Weill Cornell Medical College | ESI/TOF Negative ion mode |
ST000268 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3311 | Weill Cornell Medical College | ESI/QTOF positive ion mode |
ST000268 | Activity-Based Metabolic Profiling of M. tuberculosis H37Rv Rv3311 | Weill Cornell Medical College | ESI/TOF Negative ion mode |
ST000270 | Metabolomics in AML | University of Florida | ESI positive ion mode |
ST000270 | Metabolomics in AML | University of Florida | ESI/Orbitrap Negative ion mode |
ST000286 | Mouse skeletal myotube chronic low-frequency stimulation | University of Florida | ESI Positive ion mode |
ST000286 | Mouse skeletal myotube chronic low-frequency stimulation | University of Florida | ESI Negative ion mode |
ST000288 | Metabolomic profiling of AML Cell Lines | University of Florida | ESI Positive mode |
ST000288 | Metabolomic profiling of AML Cell Lines | University of Florida | ESI Negative mode |
ST000289 | PPDK RNAi effects in endosperm metabolite pools | University of Florida | ESI Positive mode |
ST000289 | PPDK RNAi effects in endosperm metabolite pools | University of Florida | ESI Negative mode |
ST000290 | 2014 Biotron Experiment Metabolites | University of Florida | ESI Positive mode |
ST000290 | 2014 Biotron Experiment Metabolites | University of Florida | ESI Negative mode |
ST000291 | LC-MS Based Approaches to Investigate Metabolomic Differences in the Urine of Young Women after Drinking Cranberry Juice or Apple Juice | University of Florida | ESI Positive mode |
ST000291 | LC-MS Based Approaches to Investigate Metabolomic Differences in the Urine of Young Women after Drinking Cranberry Juice or Apple Juice | University of Florida | ESI Negative mode |
ST000292 | LC-MS Based Approaches to Investigate Metabolomic Differences in the Plasma of Young Women after Drinking Cranberry Juice or Apple Juice | University of Florida | ESI Positive mode |
ST000292 | LC-MS Based Approaches to Investigate Metabolomic Differences in the Plasma of Young Women after Drinking Cranberry Juice or Apple Juice | University of Florida | ESI Negative mode |
ST000294 | Mechanisms of Metabolic Cycles in Diapausing Flesh Fly by Metabolomics Approach | University of Florida | ESI Positive mode |
ST000294 | Mechanisms of Metabolic Cycles in Diapausing Flesh Fly by Metabolomics Approach | University of Florida | ESI Negative mode |
ST000307 | Targeting CRBN to alter CD8 T cell metabolism | University of Florida | Reversed phase POSITIVE ION MODE |
ST000307 | Targeting CRBN to alter CD8 T cell metabolism | University of Florida | NEGATIVE ION MODE |
ST000310 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | University of Florida | Peak area positive ion mode |
ST000310 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | University of Florida | Peak area negative ion mode |
ST000310 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | University of Florida | Peak height positive ion mode |
ST000310 | TC and B6 untreated plasma in lupus-prone mice lipidomics (part-II) | University of Florida | Peak height negative ion mode |
ST000311 | TC and B6 untreated plasma in lupus-prone mice | University of Florida | POSITIVE ION MODE/Peak Area |
ST000311 | TC and B6 untreated plasma in lupus-prone mice | University of Florida | NEGATIVE ION MODE/Peak Area |
ST000311 | TC and B6 untreated plasma in lupus-prone mice | University of Florida | POSITIVE ION MODE/Peak Height |
ST000311 | TC and B6 untreated plasma in lupus-prone mice | University of Florida | NEGATIVE ION MODE/Peak Height |
ST000317 | Role of medium in bacterial growth | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000317 | Role of medium in bacterial growth | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000318 | Allantoin differences in Synechococcus cells grown in high versus low lightgrowth | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000318 | Allantoin differences in Synechococcus cells grown in high versus low lightgrowth | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000319 | Crude algae oil sample | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000320 | Single treatment gene impact on Arabidopsis metabolites | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000320 | Single treatment gene impact on Arabidopsis metabolites | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000321 | Effects of LGG on current drinkers gut metabolism | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000321 | Effects of LGG on current drinkers gut metabolism | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000322 | Progesterone level effects on primary metabolites in uterus, blood, and ovaries (Part 1:Plasma) | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000322 | Progesterone level effects on primary metabolites in uterus, blood, and ovaries (Part 1:Plasma) | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000323 | Progesterone level effects on primary metabolites in uterus, blood, and ovaries (Part 2:Uterine flush) | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000323 | Progesterone level effects on primary metabolites in uterus, blood, and ovaries (Part 2:Uterine flush) | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000324 | Progesterone level effects on primary metabolites in uterus, blood, and ovaries (Part 3:Ovaries) | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000324 | Progesterone level effects on primary metabolites in uterus, blood, and ovaries (Part 3:Ovaries) | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000325 | Metabolomic effects of metformin on mouse liver, intestine, and serum | University of California, Davis | HILIC POSITIVE ION MODE |
ST000326 | Role of medium in bacterial growth (HILIC chromatography) | University of California, Davis | HILIC POSITIVE ION MODE |
ST000326 | Role of medium in bacterial growth (HILIC chromatography) | University of California, Davis | HILIC NEGATIVE ION MODE |
ST000327 | Primary metabolites at different points along dog gastrointestinal tract (HILIC chromatography) | University of California, Davis | HILIC POSITIVE ION MODE |
ST000327 | Primary metabolites at different points along dog gastrointestinal tract (HILIC chromatography) | University of California, Davis | HILIC NEGATIVE ION MODE |
ST000332 | Effects of Giardia intestinalis on mice GI tract | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000332 | Effects of Giardia intestinalis on mice GI tract | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000335 | Metabolomics of bovine uterine fluid at the onset of conceptus elongation | University of Florida | UHPLC HESI POSITIVE ION MODE |
ST000335 | Metabolomics of bovine uterine fluid at the onset of conceptus elongation | University of Florida | UHPLC HESI NEGATIVE ION MODE |
ST000339 | Metabolites in peritoneal macrophages and bone marrow derived macrophages | University of California, Davis | UPLC POSITIVE ION MODE |
ST000339 | Metabolites in peritoneal macrophages and bone marrow derived macrophages | University of California, Davis | UPLC NEGATIVE ION MODE |
ST000340 | Metformin effects on liver and kidney tissue | University of California, Davis | POSITIVE ION MODE |
ST000342 | Renal metabolic pathways indicating ischemic or inflammatory changes | University of California, Davis | RP NEGATIVE ION MODE |
ST000343 | Modification of metabolites by gut microbiota in response to diet | University of California, Davis | RP POSITIVE ION MODE |
ST000343 | Modification of metabolites by gut microbiota in response to diet | University of California, Davis | RP NEGATIVE ION MODE |
ST000344 | Effects of dietary supplement on hamster metabolism | University of California, Davis | RP POSITIVE ION MODE |
ST000344 | Effects of dietary supplement on hamster metabolism | University of California, Davis | RP NEGATIVE ION MODE |
ST000346 | Metabolites detected from human bronchoalveolar lavage | University of California, Davis | RP POSITIVE ION MODE |
ST000346 | Metabolites detected from human bronchoalveolar lavage | University of California, Davis | RP NEGATIVE ION MODE |
ST000353 | The Development of Metabolomic Markers in African Bermudagrass (C. transvaalensis) for Sting Nematode (Belonolaimus longicaudatus) Response | University of Florida | UHPLC POSITIVE ION MODE |
ST000353 | The Development of Metabolomic Markers in African Bermudagrass (C. transvaalensis) for Sting Nematode (Belonolaimus longicaudatus) Response | University of Florida | UHPLC NEGATIVE ION MODE |
ST000354 | Metabolite comparison of mouse gastric tissue and glands | University of California, Davis | RP POSITIVE ION MODE |
ST000354 | Metabolite comparison of mouse gastric tissue and glands | University of California, Davis | RP NEGATIVE ION MODE |
ST000357 | Broad Spectrum MS analysis of mouse hypothalmus from Anxiety Prone HSV-Latently Infected Obese Mice | RTI International | Reversed phase POSITIVE ION MODE |
ST000357 | Broad Spectrum MS analysis of mouse hypothalmus from Anxiety Prone HSV-Latently Infected Obese Mice | RTI International | Reversed phase NEGATIVE ION MODE |
ST000359 | Broad Spectrum MS analysis of mouse microglia cells from Anxiety Prone HSV-Latently Infected Obese Mice | RTI International | Reversed phase POSITIVE ION MODE |
ST000359 | Broad Spectrum MS analysis of mouse microglia cells from Anxiety Prone HSV-Latently Infected Obese Mice | RTI International | Reversed phase NEGATIVE ION MODE |
ST000361 | Characterization and Plasticity of the Metabolome in Peripheral Cells in Bipolar I Disorder | RTI International | Reversed phase POSITIVE ION MODE |
ST000361 | Characterization and Plasticity of the Metabolome in Peripheral Cells in Bipolar I Disorder | RTI International | Reversed phase NEGATIVE ION MODE |
ST000363 | Broad Spectrum MS analysis of mouse peripheral blood mononuclear cells (PBMC) from Anxiety Prone HSV-Latently Infected Obese Mice | RTI International | Reversed phase POSITIVE ION MODE |
ST000363 | Broad Spectrum MS analysis of mouse peripheral blood mononuclear cells (PBMC) from Anxiety Prone HSV-Latently Infected Obese Mice | RTI International | Reversed phase NEGATIVE ION MODE |
ST000382 | Urinary Metabolites in IC/PBS Diagnosis (part II) | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000382 | Urinary Metabolites in IC/PBS Diagnosis (part II) | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST000387 | Changes in the metabalome and lipidome in response to exercise training | University of California, Davis | RP POSITIVE ION MODE |
ST000387 | Changes in the metabalome and lipidome in response to exercise training | University of California, Davis | RP NEGATIVE ION MODE |
ST000388 | Serum phosphatidylethanolamine levels distinguish benign from malignant solitary pulmonary nodules and represent a potential diagnostic biomarker for lung cancer (part I) | University of California, Davis | HILIC POSITIVE ION MODE |
ST000391 | Metabolomic markers of altered nucleotide metabolism in early stage adenocarcinoma (part II) | University of California, Davis | HILIC POSITIVE ION MODE |
ST000394 | The circadian oscillator in Synechococcus elongatus controls metabolite partitioning during diurnal growth | University of California, Davis | Lipidomics POSITIVE ION MODE |
ST000394 | The circadian oscillator in Synechococcus elongatus controls metabolite partitioning during diurnal growth | University of California, Davis | Lipidomics NEGATIVE ION MODE |
ST000399 | E.coli effects on growth and substrate uptake of green algae (part I - HILIC) | University of California, Davis | HILIC POSITIVE ION MODE |
ST000399 | E.coli effects on growth and substrate uptake of green algae (part I - HILIC) | University of California, Davis | HILIC NEGATIVE ION MODE |
ST000413 | Metabolic profiling during ex vivo machine perfusion of the human liver (part III) | University of California, Davis | Lipidomics POSITIVE ION MODE |
ST000413 | Metabolic profiling during ex vivo machine perfusion of the human liver (part III) | University of California, Davis | Lipidomics NEGATIVE ION MODE |
ST000423 | Differences in mycoplasma growth due to different mediums | University of California, Davis | UPLC POSITIVE ION MODE |
ST000423 | Differences in mycoplasma growth due to different mediums | University of California, Davis | UPLC NEGATIVE ION MODE |
ST000424 | Metabolomics Approach to Allograft Assessment in Liver Transplantation (part II) | University of Florida | Reversed phase POSITIVE ION MODE |
ST000424 | Metabolomics Approach to Allograft Assessment in Liver Transplantation (part II) | University of Florida | Reversed phase NEGATIVE ION MODE |
ST000446 | Heterologous expression and detection of Apratoxins in E. coli | University of Florida | UHPLC POSITIVE ION MODE |
ST000446 | Heterologous expression and detection of Apratoxins in E. coli | University of Florida | UHPLC NEGATIVE ION MODE |
ST000453 | Metabolic Adaptation of Staphylococcus aureus to Host Immunity | RTI International | Reversed phase POSITIVE ION MODE |
ST000453 | Metabolic Adaptation of Staphylococcus aureus to Host Immunity | RTI International | Reversed phase NEGATIVE ION MODE |
ST000467 | Metabolomics of Saliva Samples Obtained from Subjects with Diabetes | RTI International | Reversed phase POSITIVE ION MODE |
ST000475 | Metabolomic testing of a putative MDH inhibitor (global) | University of Florida | UHPLC POSITIVE ION MODE |
ST000475 | Metabolomic testing of a putative MDH inhibitor (global) | University of Florida | UHPLC NEGATIVE ION MODE |
ST000476 | Metabolomic analysis of oxytocin effects on social deficits in mice (part IV) | RTI International | Reversed phase POSITIVE ION MODE |
ST000515 | Metabolomics of longitudinal plasma samples from Macaca mulatta infected with Plasmodium cynomolgi B strain. | Emory University | POSITIVE ION MODE |
ST000515 | Metabolomics of longitudinal plasma samples from Macaca mulatta infected with Plasmodium cynomolgi B strain. | Emory University | NEGATIVE ION MODE |
ST000528 | Regulation of Metabolism by LSR | RTI International | Reversed phase POSITIVE ION MODE |
ST000529 | Regulation of Metabolism by LSR (part II) | RTI International | Reversed phase NEGATIVE ION MODE |
ST000530 | Effects of herb DG and KK01 on Type 2 Diabetes Mellitus (T2DM) through Lipidomics | RTI International | Reversed phase POSITIVE ION MODE |
ST000530 | Effects of herb DG and KK01 on Type 2 Diabetes Mellitus (T2DM) through Lipidomics | RTI International | Reversed phase NEGATIVE ION MODE |
ST000540 | Kidney tissue metabolomic profiling of diabetic nephropathy in the steptozotocin induced type-1 diabetes mouse model. | RTI International | HILIC POSITIVE ION MODE |
ST000540 | Kidney tissue metabolomic profiling of diabetic nephropathy in the steptozotocin induced type-1 diabetes mouse model. | RTI International | HILIC NEGATIVE ION MODE |
ST000541 | Canine Diabetes - Preliminary Evaluation of Testing Methods | University of Florida | Reversed phase POSITIVE ION MODE |
ST000541 | Canine Diabetes - Preliminary Evaluation of Testing Methods | University of Florida | Reversed phase NEGATIVE ION MODE |
ST000547 | Intergenerational murine gut microbiome variation | South Australian Health and Medical Research Institute | Reversed phase POSITIVE ION MODE |
ST000547 | Intergenerational murine gut microbiome variation | South Australian Health and Medical Research Institute | Reversed phase NEGATIVE ION MODE |
ST000552 | Metabolite signatures in trauma patients with venous thromboembolism (VTE) | University of Florida | Reversed phase POSITIVE ION MODE |
ST000552 | Metabolite signatures in trauma patients with venous thromboembolism (VTE) | University of Florida | Reversed phase NEGATIVE ION MODE |
ST000554 | Metabolomics of aged iPSC | University of Florida | Reversed phase POSITIVE ION MODE |
ST000554 | Metabolomics of aged iPSC | University of Florida | Reversed phase NEGATIVE ION MODE |
ST000555 | Cocaine administration and withdrawal (part II) | University of Florida | UHPLC POSITIVE ION MODE |
ST000555 | Cocaine administration and withdrawal (part II) | University of Florida | UHPLC NEGATIVE ION MODE |
ST000556 | IROA feasibility project; plasticizers as obesogens in zebrafish | University of Florida | UHPLC POSITIVE ION MODE |
ST000556 | IROA feasibility project; plasticizers as obesogens in zebrafish | University of Florida | UHPLC NEGATIVE ION MODE |
ST000558 | Plasma metabolomic profiling of diabetic nephropathy in the steptozotocin induced type-1 diabetes mouse model | RTI International | HILIC POSITIVE ION MODE |
ST000558 | Plasma metabolomic profiling of diabetic nephropathy in the steptozotocin induced type-1 diabetes mouse model | RTI International | HILIC NEGATIVE ION MODE |
ST000559 | Urine metabolomic profiling of diabetic nephropathy in the steptozotocin induced type-1 diabetes mouse model. | RTI International | HILIC POSITIVE ION MODE |
ST000559 | Urine metabolomic profiling of diabetic nephropathy in the steptozotocin induced type-1 diabetes mouse model. | RTI International | HILIC NEGATIVE ION MODE |
ST000560 | Metabolomics of immunoglobulin-producing cells in IgA nephropathy | RTI International | HILIC POSITIVE ION MODE |
ST000560 | Metabolomics of immunoglobulin-producing cells in IgA nephropathy | RTI International | HILIC NEGATIVE ION MODE |
ST000564 | 2014 Biotron Experiment Metabolites (part II) | University of Florida | HPLC POSITIVE ION MODE |
ST000564 | 2014 Biotron Experiment Metabolites (part II) | University of Florida | HPLC NEGATIVE ION MODE |
ST000571 | Metabolomics of uterine fluid of the cow | University of Florida | UHPLC POSITIVE ION MODE |
ST000571 | Metabolomics of uterine fluid of the cow | University of Florida | UHPLC NEGATIVE ION MODE |
ST000572 | Metabolomics of Shark Bay stromatolites | University of Florida | UHPLC POSITIVE ION MODE |
ST000572 | Metabolomics of Shark Bay stromatolites | University of Florida | UHPLC NEGATIVE ION MODE |
ST000668 | Diet manipulation on the lipidome | University of Michigan | C18 POSITIVE ION MODE |
ST000911 | Insights into the pathogenesis of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) through metabolomic profiling of cerebrospinal fluid (part II) | University of California, Davis | Reversed phase POSITIVE ION MODE |
ST000912 | Insights into the pathogenesis of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) through metabolomic profiling of cerebrospinal fluid | University of California, Davis | Reversed phase NEGATIVE ION MODE |
ST001175 | Multi-omics analysis demonstrates unique mode of action of a potent new antimalarial compound, JPC-3210, against Plasmodium falciparum | Monash University | HILIC POSITIVE ION MODE |
ST001549 | β-Adrenergic regulation of metabolism in macrophages (part-III) | Monash University | HILIC POSITIVE ION MODE |
ST001549 | β-Adrenergic regulation of metabolism in macrophages (part-III) | Monash University | HILIC NEGATIVE ION MODE |
ST001658 | Control of Topoisomerase II Activity and Chemotherapeutic Inhibition by TCA Cycle Metabolites | Johns Hopkins University | Reversed phase POSITIVE ION MODE |
ST001658 | Control of Topoisomerase II Activity and Chemotherapeutic Inhibition by TCA Cycle Metabolites | Johns Hopkins University | Normal phase POSITIVE ION MODE |
ST001668 | D-Allulose effects on hepatic metabolomics profile in rodents | Matsutani Chemical Industry Co., Ltd. | Other POSITIVE ION MODE |
ST001668 | D-Allulose effects on hepatic metabolomics profile in rodents | Matsutani Chemical Industry Co., Ltd. | Other NEGATIVE ION MODE |
ST001668 | D-Allulose effects on hepatic metabolomics profile in rodents | Matsutani Chemical Industry Co., Ltd. | Reversed phase POSITIVE ION MODE |
ST001668 | D-Allulose effects on hepatic metabolomics profile in rodents | Matsutani Chemical Industry Co., Ltd. | Reversed phase NEGATIVE ION MODE |
ST001684 | An overexpression of lipoprotein lipase leads to an alteration in the skeletal muscle metabolome in transgenic rabbits | Saga University | Other POSITIVE ION MODE |
ST001684 | An overexpression of lipoprotein lipase leads to an alteration in the skeletal muscle metabolome in transgenic rabbits | Saga University | Other NEGATIVE ION MODE |
ST002051 | The apicomplexan parasite Toxoplasma gondii forms bradyzoite-containing tissue cysts that cause chronic and drug-tolerant infections. | Robert Koch-Institute | HILIC UNSPECIFIED ION MODE |
ST002082 | Predicting dying: a study of the metabolic changes and the dying process in patients with lung cancer | University of Liverpool Institute of Life Course & Medical Sciences | Reversed phase NEGATIVE ION MODE |
ST002082 | Predicting dying: a study of the metabolic changes and the dying process in patients with lung cancer | University of Liverpool Institute of Life Course & Medical Sciences | Reversed phase POSITIVE ION MODE |
ST002094 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 1) | Mayo Clinic | Reversed phase POSITIVE ION MODE |
ST002094 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 1) | Mayo Clinic | HILIC POSITIVE ION MODE |
ST002094 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 1) | Mayo Clinic | HILIC NEGATIVE ION MODE |
ST002111 | Metabolomics dataset of optogenetic axon regenerative mouse model post optic nerve crush | University of Miami | Reversed phase POSITIVE ION MODE |
ST002111 | Metabolomics dataset of optogenetic axon regenerative mouse model post optic nerve crush | University of Miami | Reversed phase NEGATIVE ION MODE |
ST002419 | Metabolomic changes in growth of E. colik at four timespoints in MOPS rich and minimum medium | Duke Kunshan University | Normal phase POSITIVE ION MODE |
ST002444 | Zebrafish Optic Nerve Regeneration Metabolomics - 3 Days Post Crush | University of Miami | HILIC NEGATIVE ION MODE |
ST002493 | Composition of raw plant-based food items Pilot Study | Massachusetts Institute of Technology | HILIC POSITIVE ION MODE |
ST002493 | Composition of raw plant-based food items Pilot Study | Massachusetts Institute of Technology | HILIC NEGATIVE ION MODE |
ST002493 | Composition of raw plant-based food items Pilot Study | Massachusetts Institute of Technology | Reversed phase POSITIVE ION MODE |
ST002493 | Composition of raw plant-based food items Pilot Study | Massachusetts Institute of Technology | Reversed phase NEGATIVE ION MODE |
ST002493 | Composition of raw plant-based food items Pilot Study | Massachusetts Institute of Technology | Normal phase POSITIVE ION MODE |
ST002493 | Composition of raw plant-based food items Pilot Study | Massachusetts Institute of Technology | Normal phase NEGATIVE ION MODE |
ST002551 | Metabolomics dataset of CNTF induced axon regeneration in mice post optic nerve crush | University of Miami | HILIC NEGATIVE ION MODE |
ST002747 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | CZ Biohub | HILIC POSITIVE ION MODE |
ST002747 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | CZ Biohub | HILIC NEGATIVE ION MODE |
ST002747 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | CZ Biohub | Reversed phase POSITIVE ION MODE |
ST002747 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | CZ Biohub | Reversed phase NEGATIVE ION MODE |
ST002758 | Metabolic responses of normal rat kidneys to a high salt intake (Plasma) | Medical College of Wisconsin | Reversed phase POSITIVE ION MODE |
ST002758 | Metabolic responses of normal rat kidneys to a high salt intake (Plasma) | Medical College of Wisconsin | Reversed phase NEGATIVE ION MODE |
ST002758 | Metabolic responses of normal rat kidneys to a high salt intake (Plasma) | Medical College of Wisconsin | HILIC POSITIVE ION MODE |
ST002758 | Metabolic responses of normal rat kidneys to a high salt intake (Plasma) | Medical College of Wisconsin | HILIC NEGATIVE ION MODE |
ST002759 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Medical College of Wisconsin | Reversed phase POSITIVE ION MODE |
ST002759 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Medical College of Wisconsin | Reversed phase NEGATIVE ION MODE |
ST002759 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Medical College of Wisconsin | HILIC POSITIVE ION MODE |
ST002759 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney cortex) | Medical College of Wisconsin | HILIC NEGATIVE ION MODE |
ST002760 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) | Medical College of Wisconsin | Reversed phase POSITIVE ION MODE |
ST002760 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) | Medical College of Wisconsin | Reversed phase NEGATIVE ION MODE |
ST002760 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) | Medical College of Wisconsin | HILIC POSITIVE ION MODE |
ST002760 | Metabolic responses of normal rat kidneys to a high salt intake (Kidney outer medulla) | Medical College of Wisconsin | HILIC NEGATIVE ION MODE |
ST002761 | Metabolic responses of normal rat kidneys to a high salt intake (Urine) | Medical College of Wisconsin | Reversed phase POSITIVE ION MODE |
ST002761 | Metabolic responses of normal rat kidneys to a high salt intake (Urine) | Medical College of Wisconsin | Reversed phase NEGATIVE ION MODE |
ST002761 | Metabolic responses of normal rat kidneys to a high salt intake (Urine) | Medical College of Wisconsin | HILIC POSITIVE ION MODE |
ST002775 | Zebrafish Retina Regeneration Metabolomics - 3 Days Post Crush | University of Miami | HILIC POSITIVE ION MODE |
ST002775 | Zebrafish Retina Regeneration Metabolomics - 3 Days Post Crush | University of Miami | HILIC NEGATIVE ION MODE |
ST002797 | Fetal metabolic adaptations to cardiovascular stress in twin-twin transfusion syndrome | University of Texas Health Science Center at Houston | Normal phase POSITIVE ION MODE |
ST002797 | Fetal metabolic adaptations to cardiovascular stress in twin-twin transfusion syndrome | University of Texas Health Science Center at Houston | Normal phase NEGATIVE ION MODE |
ST002903 | Identification and targeting of microbial putrescine acetylation in bloodstream infections | Broad Institute of MIT and Harvard | HILIC POSITIVE ION MODE |
ST002903 | Identification and targeting of microbial putrescine acetylation in bloodstream infections | Broad Institute of MIT and Harvard | HILIC NEGATIVE ION MODE |
ST002903 | Identification and targeting of microbial putrescine acetylation in bloodstream infections | Broad Institute of MIT and Harvard | Reversed phase POSITIVE ION MODE |
ST003044 | A High-Fat Eucaloric Diet Induces Reprometabolic Syndrome of Obesity in Normal Weight Women - lipidomics | University of Colorado Denver | Reversed phase POSITIVE ION MODE |
ST003049 | Plasma instead of serum avoids critical confounding of clinical metabolomics studies by platelets | University of Vienna | Reversed phase NEGATIVE ION MODE |
ST003050 | Plasma instead of serum avoids critical confounding of clinical metabolomics studies by platelets (Part 1) | University of Vienna | Reversed phase NEGATIVE ION MODE |
ST003103 | Reinforcing the Evidence of Mitochondrial Dysfunction in Long COVID Patients using a Multiplatform Mass Spectrometry-based Metabolomics Approach | Universidad CEU San Pablo | CE POSITIVE ION MODE |
ST003103 | Reinforcing the Evidence of Mitochondrial Dysfunction in Long COVID Patients using a Multiplatform Mass Spectrometry-based Metabolomics Approach | Universidad CEU San Pablo | CE NEGATIVE ION MODE |