| Study ID | Study Title | Species | Institute |
|---|---|---|---|
| ST000040 | Heatshock response of C. elegans using IROA (I) | C. elegans | University of Florida |
| ST000098 | Heatshock response of C. elegans using IROA (II) | C. elegans | University of Florida |
| ST000098 | Heatshock response of C. elegans using IROA (II) | C. elegans | University of Florida |
| ST000100 | Global Metabolomics of C. elegans using an augmented reference IROA design | C. elegans | University of Florida |
| ST000103 | 2D-INADEQUATE NMR study of C. elegans metabolome | C. elegans | University of Florida |
| ST000922 | Crab Urine Study | Crab | Georgia Institute of Technology |
| ST000999 | Natural genetic variation in C. elegans identified genomic loci controlling metabolite levels | C. elegans | Academic Medical Center of Amsterdam |
| ST001088 | Physiological and metabolic response of crab megalopae and juveniles to ocean acidification (part-I) | Crab | NOAA NWFSC |
| ST001102 | Physiological and metabolic response of crab megalopae and juveniles to ocean acidification (part-II) | Crab | NOAA NWFSC |
| ST001116 | Variability in metabolomic profiles among unique genotypes of Acropora cervicornis | Acropora cervicornis | University of Florida |
| ST001163 | Variability in metabolomic profiles among unique genotypes of Acropora cervicornis (part-II) | Acropora cervicornis | University of Florida |
| ST001165 | Physiological and metabolic response of crab megalopae and juveniles to ocean acidification (part-III) | Crab | NOAA NWFSC |
| ST001166 | Physiological and metabolic response of pteropods to ocean acidification (part IV) | Crab | NOAA NWFSC |
| ST001182 | Correlations between LC-MS/MS-detected Glycomics and NMR-detected Metabolomics in Caenorhabditis (part -I) elegans Development. | C. elegans | University of Georgia |
| ST001183 | Correlations between LC-MS/MS-detected Glycomics and NMR-detected Metabolomics in Caenorhabditis (part-II) elegans Development. | C. elegans | University of Georgia |
| ST001258 | Modeling the metabolic interplay between a parasitic worm and its bacterial endosymbiont allows the identification of novel drug targets | Roundworm | The Hospital for Sick Children; NYU Langone Health |
| ST001332 | LCMS lipid and acyl-carnitine analysis | C. elegans | University of Cambridge |
| ST001645 | Variability in metabolomic profiles among unique genotypes of Acropora cervicornis (part -III) | Acropora cervicornis | University of Florida |
| ST001777 | Comparison of High-Resolution Fourier Transform Mass Spectrometry Platforms for Metabolite Annotation - C. elegans | C. elegans | Georgia Institute of Technology |
| ST001778 | Comparison of High-Resolution Fourier Transform Mass Spectrometry Platforms for Metabolite Annotation | C. elegans | Georgia Institute of Technology |
| ST001807 | Untargeted metabolomics of Daphnia magna exposed to a lithium cobalt oxide nanomaterial | Water flea | University of Wisconsin - Milwaukee |
| ST002046 | A Taguchi Design of Experiments Approach for Untargeted Metabolomics Sample Preparation Optimization | C. elegans | University of Georgia |
| ST002092 | Addressing batch effects in large-scale metabolomics with augmented experimental design and meta-analysis | C. elegans | University of Georgia - Complex Carbohydrate Research Center |
| ST002095 | Addressing batch effects in large-scale metabolomics with augmented experimental design and meta-analysis (Part 1) | C. elegans | University of Georgia - Complex Carbohydrate Research Center |
| ST002096 | Addressing batch effects in large-scale metabolomics with augmented experimental design and meta-analysis (Part 2) | C. elegans | University of Georgia - Complex Carbohydrate Research Center |
| ST002206 | Lipolysis-derived Lipids Determine Autophagy Initiation during Fasting | C. elegans | Seoul National University |
| ST002324 | Exploration of age-dependent changes of phospholipid profiles in C. elegans depleted of tif-IA and ncl-1 | C. elegans | University of Innsbruck |
| ST002325 | Determination of changes in free fatty acid levels in C. elegans depleted of tif-IA and ncl-1 | C. elegans | University of Innsbruck |
| ST002326 | Analysis of age-dependent changes of triacylglycerol species in C. elegans depleted of tif-IA and ncl-1 | C. elegans | University of Innsbruck |
| ST002460 | Paleamon metabolomics | Common prawn | National Museum of Natural History |
| ST002504 | Lipid droplets and peroxisomes are co-regulated to drive lifespan extension in response to mono-unsaturated fatty acids | C. elegans | Stanford University |
| ST002870 | A carbon-nitrogen negative feedback loop underlies the repeated evolution of cnidarian-Symbiodiniaceae symbioses across >700 Myr | Cassiopea andromeda | King Abdullah University of Science and Technology |
| ST002870 | A carbon-nitrogen negative feedback loop underlies the repeated evolution of cnidarian-Symbiodiniaceae symbioses across >700 Myr | Exaiptasia diaphana | King Abdullah University of Science and Technology |
| ST002870 | A carbon-nitrogen negative feedback loop underlies the repeated evolution of cnidarian-Symbiodiniaceae symbioses across >700 Myr | Stylophora pistillata | King Abdullah University of Science and Technology |
- UCSD Metabolomics Workbench, a resource sponsored by the Common Fund of the National Institutes of Health
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