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)
- Metabolomic responses to long-term salt stress in related Lotus species (C)
- How Does the Seed Pre-germinative Metabolism Fight against Imbibition Damage; Emerging Roles of Fatty Acid Cohort and Antioxidant Defence
- Bioplatforms Australia: Antibiotic Resistant Sepsis Pathogens Framework Initiative (Escherichia coli assays)
- Mining for metabolic responses to long-term salt stress: a case study on Arabidopsis thaliana Col-0 (A)
- Chronic sleep loss sensitizes Drosophila melanogaster to nitrogen stress
- Metabolite profile data of grapevine plants with brown wood streaking and grapevine leaf stripe (esca complex disease) symptoms
- Metabolomics and lipidomics reveal perturbation of sphingolipid metabolism by a novel anti-trypanosomal 3-(oxazolo[4,5-b]pyridine-2-yl)anilide
- 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)
- 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)
- Transcriptomic and lipidomic profiling of subcutaneous and visceral adipose tissues in 15 vertebrates
- Transcriptomics and metabolomics analysis reveal the anti-oxidation and immune boosting effects of mulberry leaves in growing mutton sheep
- Integrated multi-omics analysis of adverse cardiac remodeling and metabolic inflexibility upon ErbB2 and ERRα deficiency.
- Changing environments and genetic variation: inbreeding does not compromise short-term physiological responses
Observed in differential profiles
- Lotus_japonicus_MG20_Control_vs_Treatment
- G1_Lotus_japonicus_var_MG20_Control_vs_G2_Lotus_japonicus_var_MG20_Treatment
- Dry_Seed_vs_8h_Imbibed_Seed
- RPMI_B36_vs_Pooled_Sera_B36
- Control_vs_75mM
- Iso31_Control_vs_Fumin_Homozygous_Sleep_Mutants
- Control_vs_Asymptomatic
- Control_vs_OXPA_Treatment
- Control_0mM_vs_75mM
- Control_vs_150mM
- Control_vs_150mM
- Dc-N_vs_Dc-HS
- Dcs_N_vs_Dcs_HS
- Control_vs_150mM
- G1_Sheep_ASA_SAT_vs_G2_Sheep_GOM_VAT
- Control_vs_Fermented_Mulberry_Leaves
- WT_vs_ErbB2_KI
- Inbreeding_Growth_Chamber_0_day_vs_Inbreeding_Growth_Chamber_92_day