List of Studies ( Metabolite:N-Lactoyl histidine)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Analysis Type |
|---|---|---|---|---|---|---|---|
| ST003546 | AN005827 | 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 | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | Blood | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | Cecum | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | Colon | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | DSI | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | Liver | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | MSI | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | PSI | Mouse | Brown University | Other | |
| ST003277 | AN005367 | LC-MS/MS spatial analysis of mouse GI | Stomach | Mouse | Brown University | Other | |
| ST003063 | AN005018 | Uncoupling Metabolic Health from Thermogenesis via BCAA Nitrogen Flux in Brown Fat - Serum metabolomics from control and MBC UCP1-KO | Blood | Mouse | Diabetes | BIDMC | LC-MS |
| ST002978 | AN004893 | 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 | AN004893 | 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 | AN004893 | Metabolite Profiling Of Vaginal Microbes In Suspension And Biofilm Cultures: Potential Target Against Bacterial Vaginosis | Bacterial cells | Lactobacillus iners | Bacterial Vaginosis | Purdue University | Other |
