Metabolite details
Reactome pathways
- No Reactome pathways listed for this metabolite.
Observed in studies
- Metabolomic responses to long-term salt stress in related Lotus species (A)
- Plant hosts modify belowground microbial community response to extreme drought
- Unknown Metabolite Annotation in Mouse Aging using Ion Mobility Collision Cross-Section Atlas (AllCCS)
- A metabolite roadmap of the wood-forming tissue in Populus tremula (GC-MS assay; Wood ring and extraxylary tissue)
- How Does the Seed Pre-germinative Metabolism Fight against Imbibition Damage; Emerging Roles of Fatty Acid Cohort and Antioxidant Defence
- Fruit setting rewires central metabolism via gibberellin cascades
- Bioplatforms Australia: Antibiotic Resistant Sepsis Pathogens Framework Initiative (Escherichia coli assays)
- 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)
- Metabolomic profiling reveals the effects of early-life lactoferrin intervention on protein synthesis, energy production and antioxidative capacity in the liver of suckling piglets
- Bioplatforms Australia: Antibiotic Resistant Sepsis Pathogens Framework Initiative (Klebsiella pneumoniae assays)
- Bioplatforms Australia: Antibiotic Resistant Sepsis Pathogens Framework Initiative (Streptococcus pyogenes assays)
- Metabolomic Insights into the Browning of the Peel of Bagging ‘Rui Xue’ Apple Fruit
- Dissecting Metabolism of Leaf Nodules in <i>Ardisia crenata</i> and <i>Psychotria punctata</i>.
- Anti-anemia drug FG4592 retards the AKI to CKD transition by improving vascular regeneration and anti-oxidative capability (day 10)
- Jasmonate-mediated stomatal closure under elevated CO2 revealed by time-resolved metabolomics
- Plant elicitor peptide signalling confers rice resistance to piercing-sucking insect herbivores and pathogens
- Metabolite profile data of grapevine plants with brown wood streaking and grapevine leaf stripe (esca complex disease) symptoms
- The Manchurian Walnut Genome: Insights into Juglone and Lipid Biosynthesis.
- Metabolic signatures of Arabidopsis thaliana abiotic stress responses elucidate patterns in stress priming, acclimation, and recovery
- Diallyl disulfide (DADS) ameliorates intestinal Candida albicans infection by modulating the gut microbiota and metabolites and providing intestinal protection in mice
- Unbiased characterization of genotype-dependent metabolic regulations by metabolomic approach in Arabidopsis thaliana
- Mining for metabolic responses to long-term salt stress: a case study on Arabidopsis thaliana Col-0 (C)
- 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
- Intergenerational Association of Gut Microbiota and Metabolism between Perinatal Folic Acid Metabolism and Neural Tube Defects (Feces metabolomics)
- 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
- Mining for metabolic responses to long-term salt stress: a case study on the model legume Lotus japonicus (C)
- FSCN1 as a new druggable target in adrenocortical carcinoma
- Transcriptomics and metabolomics analysis reveal the anti-oxidation and immune boosting effects of mulberry leaves in growing mutton sheep
- Unraveling the metabolic effects of benzophenone-3 on the endosymbiotic dinoflagellate Cladocopium goreaui
- Genetic mapping and molecular mechanism behind color variation in the Asian vine snake
- Human Gut Microbiota from Autism Spectrum Disorder Promote Behavioral Symptoms in Mice
Observed in differential profiles
- T0_vs_T3
- Lotus_japonicus_MG20_Control_vs_Treatment
- 36_week_vs_104_week
- Phloem_vs_Cambium
- Dry_Seed_vs_8h_Imbibed_Seed
- G1_Wild_Type_Day_-2_Pollination_0_vs_G3_Wild_Type_Day_2_Pollination_1
- RPMI_B36_vs_Pooled_Sera_B36
- G3_Experimental_Sample_0h_vs_G11_Experimental_Sample_96h
- Control_Day_8_vs_Lactoferrin_Day_8
- Control_vs_75mM
- G1_Klebsiella_pneumoniae_AJ218_RPMI_vs_G2_Klebsiella_pneumoniae_AJ218_Pooled_sera
- G1_RPMI_modified_Blood_M1T1_5448_vs_G2_Pooled_sera_Blood_M1T1_5448
- Non_Bagged_Fruits_vs_Bagged_Fruits_With_Browning
- Ardisia_crenata_Stage_I_lamina_vs_nodule
- Sham_vs_UIR
- 400ppm_0min_vs_800ppm_60min
- ZH11_Mock_vs_ZH11_OsPep3
- Control_vs_Asymptomatic
- Embryo_S1_vs_Embryo_S4
- Control_vs_Basal_cold
- G1_PBS_vs_G2_DSS
- Col-0_vs_tt4
- Control_0mM_vs_75mM
- Control_vs_150mM
- Control_vs_150mM
- Col-0_Root_vs_tt4_Root
- Normal_vs_Neural_Tube_Defect
- Dc-N_vs_Dc-HS
- Dcs_N_vs_Dcs_HS
- Control_vs_150mM
- Control_Vehicle_vs_FSCN1_Knockout_Vehicle
- Control_vs_Fermented_Mulberry_Leaves
- Control_vs_BP3_Low_Concentration
- Yellow_Skin_vs_Green_Skin
- ASD_Fecal_vs_TD_Fecal