Metabolite details
Reactome pathways
- R-HSA-1430728 - Metabolism
- R-HSA-162582 - Signal Transduction
- R-HSA-163685 - Integration of energy metabolism
- R-HSA-1643685 - Disease
- R-HSA-1660662 - Glycosphingolipid metabolism
- R-HSA-170822 - Regulation of Glucokinase by Glucokinase Regulatory Protein
- R-HSA-189085 - Digestion of dietary carbohydrate
- R-HSA-189200 - Cellular hexose transport
- R-HSA-2980736 - Peptide hormone metabolism
- R-HSA-372790 - Signaling by GPCR
- R-HSA-381771 - Synthesis, secretion, and inactivation of Glucagon-like Peptide-1 (GLP-1)
- R-HSA-382551 - Transport of small molecules
- R-HSA-388396 - GPCR downstream signalling
- R-HSA-392499 - Metabolism of proteins
- R-HSA-400508 - Incretin synthesis, secretion, and inactivation
- R-HSA-418594 - G alpha (i) signalling events
- R-HSA-420499 - Class C/3 (Metabotropic glutamate/pheromone receptors)
- R-HSA-422085 - Synthesis, secretion, and deacylation of Ghrelin
- R-HSA-422356 - Regulation of insulin secretion
- R-HSA-425407 - SLC-mediated transmembrane transport
- R-HSA-428157 - Sphingolipid metabolism
- R-HSA-446203 - Asparagine N-linked glycosylation
- R-HSA-500792 - GPCR ligand binding
- R-HSA-532668 - N-glycan trimming in the ER and Calnexin/Calreticulin cycle
- R-HSA-556833 - Metabolism of lipids
- R-HSA-5619043 - Defective SLC2A1 causes GLUT1 deficiency syndrome 1 (GLUT1DS1)
- R-HSA-5619047 - Defective SLC2A9 causes hypouricemia renal 2 (RHUC2)
- R-HSA-5619056 - Defective HK1 causes hexokinase deficiency (HK deficiency)
- R-HSA-5619068 - Defective SLC2A10 causes arterial tortuosity syndrome (ATS)
- R-HSA-5619073 - Defective GCK causes maturity-onset diabetes of the young 2 (MODY2)
- R-HSA-5619098 - Defective SLC2A2 causes Fanconi-Bickel syndrome (FBS)
- R-HSA-5619102 - SLC transporter disorders
- R-HSA-5619115 - Disorders of transmembrane transporters
- R-HSA-5652084 - Fructose metabolism
- R-HSA-5652227 - Fructose biosynthesis
- R-HSA-5653890 - Lactose synthesis
- R-HSA-5656364 - Defective SLC5A1 causes congenital glucose/galactose malabsorption (GGM)
- R-HSA-5658208 - Defective SLC5A2 causes renal glucosuria (GLYS1)
- R-HSA-597592 - Post-translational protein modification
- R-HSA-70171 - Glycolysis
- R-HSA-70221 - Glycogen breakdown (glycogenolysis)
- R-HSA-70263 - Gluconeogenesis
- R-HSA-70326 - Glucose metabolism
- R-HSA-71387 - Metabolism of carbohydrates and carbohydrate derivatives
- R-HSA-8935690 - Digestion
- R-HSA-8963676 - Intestinal absorption
- R-HSA-8963743 - Digestion and absorption
- R-HSA-8981373 - Intestinal hexose absorption
- R-HSA-8982491 - Glycogen metabolism
- R-HSA-901042 - Calnexin/calreticulin cycle
- R-HSA-948021 - Transport to the Golgi and subsequent modification
- R-HSA-964739 - N-glycan trimming and elongation in the cis-Golgi
- R-HSA-9709957 - Sensory Perception
- R-HSA-9717189 - Sensory perception of taste
- R-HSA-9717207 - Sensory perception of sweet, bitter, and umami (glutamate) taste
- R-HSA-9840310 - Glycosphingolipid catabolism
Observed in studies
- Metabolomic responses to long-term salt stress in related Lotus species (A)
- Metabolomic responses to long-term salt stress in related Lotus species (C)
- A metabolite roadmap of the wood-forming tissue in Populus tremula (GC-MS assay; Wood ring and extraxylary tissue)
- The response of Chlamydomonas reinhardtii to nitrogen deprivation: a systems biology analysis
- Metabolic Dynamics of In Vitro CD8+ T Cell Activation.
- Mining for metabolic responses to long-term salt stress: a case study on Arabidopsis thaliana Col-0 (A)
- Mining for metabolic responses to long-term salt stress: a case study on Arabidopsis thaliana Col-0 (C)
- Homeostasis of the biosynthetic E. coli metabolome
- Mining for metabolic responses to long-term salt stress: a case study on the model legume Lotus japonicus (A)
- Mining for metabolic responses to long-term salt stress: a case study on the model legume Lotus japonicus (B)
- Metabolomic correlation-network modules in Arabidopsis based on a graph-clustering approach
- Inorganic Carbon Limitation in Cells of the Wild Type and Photorespiratory Mutants of the Cyanobacterium Synechocystis sp. Strain PCC 6803
- Mining for metabolic responses to long-term salt stress: a case study on the model legume Lotus japonicus (C)
- Bile acid is a significant host factor shaping the gut microbiome of diet induced obese mice (untargeted metabolome profile assay)
- Regulatory actors and alternative routes for Arabidopsis seed germination are revealed using a pathway‐based analysis of transcriptomic datasets
- Human Gut Microbiota from Autism Spectrum Disorder Promote Behavioral Symptoms in Mice
- Changing environments and genetic variation: inbreeding does not compromise short-term physiological responses
- Decreased abundance of type III secretion systeminducing signals in Arabidopsis mkp1 enhances resistance against Pseudomonas syringae
Observed in differential profiles
- Lotus_japonicus_MG20_Control_vs_Treatment
- G1_Lotus_japonicus_var_MG20_Control_vs_G2_Lotus_japonicus_var_MG20_Treatment
- Phloem_vs_Cambium
- 0h_vs_24h
- G3_Experimental_Sample_0h_vs_G11_Experimental_Sample_96h
- Control_vs_75mM
- Glu_BW25113_vs_Pyr_BW25113
- Control_0mM_vs_75mM
- Control_vs_150mM
- Control_vs_150mM
- Col-0_Root_vs_tt4_Root
- Normal_Diet_vs_High-fat_Diet
- Control_vs_150mM
- WT_vs_sll0404.ko
- Col_ND_15h_vs_Col_ND_27h
- ASD_Fecal_vs_TD_Fecal
- Inbreeding_Growth_Chamber_0_day_vs_Inbreeding_Growth_Chamber_92_day
- WT_vs_MPK1_Mutant