Metabolite details
Reactome pathways
- R-HSA-1430728 - Metabolism
- R-HSA-196849 - Metabolism of water-soluble vitamins and cofactors
- R-HSA-196854 - Metabolism of vitamins and cofactors
- R-HSA-199220 - Vitamin B5 (pantothenate) metabolism
Observed in studies
- Metabolic Dynamics of In Vitro CD8+ T Cell Activation.
- Microbial Diversity and Non-volatile Metabolites Profile of Low-Temperature Sausage Stored at Room Temperature
- Changes and correlations of intestinal flora and liver metabolite profiles in mice with gallstones
- Chronic sleep loss sensitizes Drosophila melanogaster to nitrogen stress
- Long-term low-dose ionizing radiation induced chromosome-aberration-specific metabolic phenotype changes in radiation workers
- A Combined Proteomic and Metabolomic Strategy for Allergens Characterization in Natural and Fermented <em>Brassica napus</em> Bee Pollen
- Effects of Radiofrequency Field from 5G Communications on fecal microbiome and metabolome profiles in mice
- Intergenerational Association of Gut Microbiota and Metabolism between Perinatal Folic Acid Metabolism and Neural Tube Defects (Feces metabolomics)
- 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
- DNA-PKcs drives CKD progression by activating TAF7/RAPTOR/mTORC1 signaling-mediated metabolic reprogramming
- Extracellular-acidosis restricts one-carbon metabolism and preserves T cell stemness
- Metabolomics Investigation of Dietary Effects on Flesh Quality in Grass Carp (Ctenopharyngodon idellus)
- Metabolic changes associated with tick-microbe interactions
- TGF-β uncouples glycolysis and inflammation in macrophages and controls the survival during sepsis
- Unraveling the metabolic effects of benzophenone-3 on the endosymbiotic dinoflagellate Cladocopium goreaui
- Disturbed Microbiota-Metabolites-Immune Interaction Network is Associated with Olfactory Dysfunction in Patients with Chronic Rhinosinusitis
- 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)
- 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 negative mode)
Observed in differential profiles
- G3_Experimental_Sample_0h_vs_G11_Experimental_Sample_96h
- Control_vs_Day_12
- Control_vs_Lithogenic_Diet
- Iso31_Control_vs_Fumin_Homozygous_Sleep_Mutants
- LLIR_vs_Control
- Unfermented_vs_Fermented
- Sham_vs_Radiofrequency
- Normal_vs_Neural_Tube_Defect
- Control_0d_vs_Treatment_180d
- MCF-7_WT_vs_MCF-7_PKM2_KO
- DNA-PK_KO_UUO_vs_DNA-PK_KO_Control
- Control_vs_Lactic_Acid
- Female_Artificial_Feed_vs_Female_Grass_Feed
- Uninfected_1h_vs_Anaplasma_phagocytophilum_1h
- Control_vs_TGF-beta_Treatment
- Control_vs_BP3_Low_Concentration
- Normal_vs_Abnormal
- SAR-S_vs_SAR-R
- SAR-R_vs_SAR-S