Metabolite details
Reactome pathways
- No Reactome pathways listed for this metabolite.
Observed in studies
- Effect of L-carnitine administration on lipid and metabolite content in sheep infraspinatus muscle after tendon release
- Unknown Metabolite Annotation in Mouse Aging using Ion Mobility Collision Cross-Section Atlas (AllCCS)
- Changes and correlations of intestinal flora and liver metabolite profiles in mice with gallstones
- Diallyl disulfide (DADS) ameliorates intestinal Candida albicans infection by modulating the gut microbiota and metabolites and providing intestinal protection in mice
- A Combined Proteomic and Metabolomic Strategy for Allergens Characterization in Natural and Fermented <em>Brassica napus</em> Bee Pollen
- Phosphoproteomic and Metabolomic Profiling Uncovers the Roles of CcPmk1 in the Pathogenicity of <i>Cytospora chrysosperma</i>
- Intergenerational Association of Gut Microbiota and Metabolism between Perinatal Folic Acid Metabolism and Neural Tube Defects (Feces metabolomics)
- Interaction between Cervical Microbiota and Host Gene Regulation in Caesarean Section Scar Diverticulum
- Transcriptomic dynamics control rapid transition of core crop functions in 'lactating' pigeon
- Stage-specific roles of microbial dysbiosis and metabolic disorders in rheumatoid arthritis
- Alterations in the gut microbiota and metabolomics of seafarers after a six-month sea voyage
- Transcriptomics and metabolomics analysis reveal the anti-oxidation and immune boosting effects of mulberry leaves in growing mutton sheep
- Extracellular-acidosis restricts one-carbon metabolism and preserves T cell stemness
Observed in differential profiles
- Control_16.6_months_vs_Treatment_16.6_months
- 36_week_vs_104_week
- Control_vs_Lithogenic_Diet
- G1_PBS_vs_G2_DSS
- Unfermented_vs_Fermented
- CcPmk1_vs_Wild_type
- Normal_vs_Neural_Tube_Defect
- Control_vs_CSD
- Male_19_days_vs_Male_1_day
- Healthy_vs_RAS4
- Control_0d_vs_Treatment_180d
- Control_vs_Fermented_Mulberry_Leaves
- Control_vs_Lactic_Acid