Metabolite details
Reactome pathways
- No Reactome pathways listed for this metabolite.
Observed in studies
- Biological effect of chronic mistranslation in mammalian cells
- Metabolic Dynamics of In Vitro CD8+ T Cell Activation.
- Multi-Omics Analysis Reveals Disturbance of Nanosecond Pulsed Electric Field in the Serum Metabolic Spectrum and Gut Microbiota
- Changes and correlations of intestinal flora and liver metabolite profiles in mice with gallstones
- Distinct metabolic profiling is correlated with bisexual flowers formation resulting from exogenous ethephon induction in melon (<i>Cucumis melo</i> L.)
- Metabolite profile data of grapevine plants with brown wood streaking and grapevine leaf stripe (esca complex disease) symptoms
- Gut microbiome drives individual memory variation in bumblebees
- Comparative Metabolomic Profiling of Compatible and Incompatible Interactions Between Potato and Phytophthora infestans
- Phosphoproteomic and Metabolomic Profiling Uncovers the Roles of CcPmk1 in the Pathogenicity of <i>Cytospora chrysosperma</i>
- AMPK activation orchestrated replicative senescence of periodontal ligament stem cells via regulating metabolomics
- Intergenerational Association of Gut Microbiota and Metabolism between Perinatal Folic Acid Metabolism and Neural Tube Defects (Feces metabolomics)
- Mechanism of interventional effect and targets of Zhuyu Pill in regulating and suppressing colitis and cholestasis
- Multiomic analysis revealed the potential role of rumen microbes in heat stress
- Effect of heat stress on serum enzyme activity, antioxidant capacity and immune parameter metabolomics datasets in Holstein cows at different growth stages
- PKM2 methylation by CARM1 activates aerobic glycolysis to promote tumorigenesis.
- Alterations in the gut microbiota and metabolomics of seafarers after a six-month sea voyage
- Extracellular-acidosis restricts one-carbon metabolism and preserves T cell stemness
- Genetic mapping and molecular mechanism behind color variation in the Asian vine snake
- L-leucine increases the sensitivity of drug-resistant Salmonella to sarafloxacin by stimulating central carbon metabolism and increasing intracellular reactive oxygen species level (LC-MS positive mode)
Observed in differential profiles
- rps2_wildtype_vs_rps2_A226Y
- G3_Experimental_Sample_0h_vs_G11_Experimental_Sample_96h
- Control_vs_nsPEF_7_day
- Control_vs_Lithogenic_Diet
- Control_vs_Ethephon_Treatment
- Control_vs_Asymptomatic
- Hindgut_Control_vs_Lactobacillus_apis
- Hindgut_Control_vs_Lactobacillus_apis
- Ziyun_No.1_0h_vs_Ziyun_No.1_96h
- CcPmk1_vs_Wild_type
- Passage_4_vs_Passage_20
- Normal_vs_Neural_Tube_Defect
- Control_vs_ZYP_High_Dose
- Dc-N_vs_Dc-HS
- Dcs_N_vs_Dcs_HS
- Control_0d_vs_Treatment_180d
- MCF-7_WT_vs_MCF-7_PKM2_KO
- Control_vs_Lactic_Acid
- Yellow_Skin_vs_Green_Skin
- SAR-S_vs_SAR-R