Metabolite details
Reactome pathways
- No Reactome pathways listed for this metabolite.
Observed in studies
- Absence of tmRNA Increases the Persistence to Cefotaxime and the Intercellular Accumulation of Metabolite GlcNAc in <i>Aeromonas veronii</i>.
- Absence of tmRNA increases the persistence to cefotaxime by upregulating the metabolites GlcNAc in Aeromonas veronii
- New insights into the responses of soil microorganisms to polycyclic aromatic hydrocarbon stress by combining enzyme activity and sequencing analysis with metabolomics.
- Hfq Regulates Efflux Pump Expression and Purine Metabolic Pathway to Increase the Trimethoprim Resistance in Aeromonas veronii
- Jejunal inflammatory cytokines, barrier proteins and microbiome-metabolome responses to early supplementary feeding of Bamei suckling piglets
- Fruit setting rewires central metabolism via gibberellin cascades
- Metabolic Dynamics of In Vitro CD8+ T Cell Activation.
- Metabolomics identifies the intersection of phosphoethanolamine with menaquinone- triggered apoptosis in an in vitro model of leukemia
- Multi-Omics Analysis Reveals Disturbance of Nanosecond Pulsed Electric Field in the Serum Metabolic Spectrum and Gut Microbiota
- Transcriptomics and metabolomics of engineered Synechococcus elongatus during photomixotrophic growth
- Microbial Diversity and Non-volatile Metabolites Profile of Low-Temperature Sausage Stored at Room Temperature
- Anti-anemia drug FG4592 retards the AKI to CKD transition by improving vascular regeneration and anti-oxidative capability (day 21)
- High complexity and diel dynamics of planktonic microbiome revealed by multi-omics in Taihu, China
- Diallyl disulfide (DADS) ameliorates intestinal Candida albicans infection by modulating the gut microbiota and metabolites and providing intestinal protection in mice
- Brain metabolomic profiling of eastern honey bee (Apis cerana) infested with the mite Varroa destructor.
- Exercise-generated β-aminoisobutyric acid (BAIBA) reduces cardiomyocytes metabolic stress and apoptosis caused by mitochondrial dysfunction through the miR-208b/AMPK pathway
- Metabolic profilings of rat INS-1 β-cells under changing levels of essential amino acids
- 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)
- Interaction between Cervical Microbiota and Host Gene Regulation in Caesarean Section Scar Diverticulum
- Mechanism of interventional effect and targets of Zhuyu Pill in regulating and suppressing colitis and cholestasis
- Alterations in the gut microbiota and metabolomics of seafarers after a six-month sea voyage
- Metabolic disorder and intestinal microflora dysbiosis in chronic inflammatory demyelinating polyradiculoneuropathy
- Transcriptomics and metabolomics analysis reveal the anti-oxidation and immune boosting effects of mulberry leaves in growing mutton sheep
- Metabolomics Investigation of Dietary Effects on Flesh Quality in Grass Carp (Ctenopharyngodon idellus)
- Unraveling the metabolic effects of benzophenone-3 on the endosymbiotic dinoflagellate Cladocopium goreaui
- 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
- Wild_Type_vs_tmRNA_Deletion
- Wild_Type_vs_tmRNA_Knockout
- Wild_Type_vs_tmRNA_Knockout
- Low_Contamination_vs_High_Contamination
- Wild_type_vs_hfq
- Wild_type_vs_hfq
- Supplementary_feeding_vs_Control
- G1_Wild_Type_Day_-2_Pollination_0_vs_G3_Wild_Type_Day_2_Pollination_1
- G3_Experimental_Sample_0h_vs_G11_Experimental_Sample_96h
- G1_Jurkat_Negative_Control_0h_vs_G7_Jurkat_Menaquinone_72h
- Control_vs_nsPEF_7_day
- Wild_Type_vs_YQ2-gal
- Control_vs_Day_12
- Sham_vs_UIR
- 2:00 AM_Membrane_vs_2:00 AM_Net
- G1_PBS_vs_G2_DSS
- Mite_Infestation_vs_Control
- Mite_Infestation_vs_Control
- Sham_vs_Heart_Failure_Sedentary
- Sham_vs_Heart_Failure_Sedentary
- G1_Control_vs_G2_Arginine_Addition
- Sham_vs_Radiofrequency
- Normal_vs_Neural_Tube_Defect
- Control_vs_CSD
- Control_vs_ZYP_High_Dose
- Control_0d_vs_Treatment_180d
- CIDP_patient_vs_healthy_control
- Control_vs_Fermented_Mulberry_Leaves
- Female_Artificial_Feed_vs_Female_Grass_Feed
- Control_vs_BP3_Low_Concentration
- SAR-S_vs_SAR-R
- SAR-R_vs_SAR-S