Compare metabolites in 2 of these studies:
Study A:   Study B:  

List of Studies ( Metabolite:Tyr-Asn)

Study_idAnalysis_idStudy_titleSourceSpeciesDiseaseInstituteAnalysis Type
ST004389 AN007332 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 AN007332 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
ST004153 AN006894 Multi-omics Study of Small Intestine Adaptation After Total Colectomy in a Rat model Feces Rat Shanghai Jiao Tong University LC-MS
ST003911 AN006421 Molecular fingerprint inference reveals bioactive lipids and microbial metabolites in colitis. Study 4 Bacterial cells Eggerthella lenta Inflammatory bowel disease Broad Institute of MIT and Harvard LC-MS
ST003911 AN006421 Molecular fingerprint inference reveals bioactive lipids and microbial metabolites in colitis. Study 4 Bacterial cells Fusobacterium nucleatum Inflammatory bowel disease Broad Institute of MIT and Harvard LC-MS
ST003910 AN006418 Molecular fingerprint inference reveals bioactive lipids and microbial metabolites in colitis. Study 3. Bacterial cells Bifidobacteria Inflammatory bowel disease Broad Institute of MIT and Harvard LC-MS
ST003910 AN006418 Molecular fingerprint inference reveals bioactive lipids and microbial metabolites in colitis. Study 3. Bacterial cells Clostridium Inflammatory bowel disease Broad Institute of MIT and Harvard LC-MS
ST003910 AN006418 Molecular fingerprint inference reveals bioactive lipids and microbial metabolites in colitis. Study 3. Bacterial cells Escherichia coli Inflammatory bowel disease Broad Institute of MIT and Harvard LC-MS
ST003910 AN006418 Molecular fingerprint inference reveals bioactive lipids and microbial metabolites in colitis. Study 3. Bacterial cells Streptococcus Inflammatory bowel disease Broad Institute of MIT and Harvard LC-MS
ST003768 AN006185 The Chromosome-Scale Assembly and Multi-Omics Analysis Reveal Adaptive Evolution and Nitrogen Utilization Mechanisms in Edible Grass Leaf Grass Hunan Agricultural University LC-MS
ST003768 AN006185 The Chromosome-Scale Assembly and Multi-Omics Analysis Reveal Adaptive Evolution and Nitrogen Utilization Mechanisms in Edible Grass Roots Grass Hunan Agricultural University LC-MS
ST003768 AN006186 The Chromosome-Scale Assembly and Multi-Omics Analysis Reveal Adaptive Evolution and Nitrogen Utilization Mechanisms in Edible Grass Leaf Grass Hunan Agricultural University LC-MS
ST003768 AN006186 The Chromosome-Scale Assembly and Multi-Omics Analysis Reveal Adaptive Evolution and Nitrogen Utilization Mechanisms in Edible Grass Roots Grass Hunan Agricultural University LC-MS
ST003213 AN005269 The central role of creatine and polyamines in fetal growth restriction Placenta Human Placenta disease University of Udine LC-MS
ST002407 AN003924 Spatial, temporal, and inter-subject variation of the metabolome along the human upper intestinal tract Intestine Human University of California, Davis LC-MS
ST001794 AN002911 Metabolomics Analysis of Time-Series Gastrointestinal Lumen Samples Jejunum Human University of California, Davis LC-MS
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