Metabolite details
Reactome pathways
- No Reactome pathways listed for this metabolite.
Observed in studies
- Biological effect of chronic mistranslation in mammalian cells
- Bioplatforms Australia: Antibiotic Resistant Sepsis Pathogens Framework Initiative (Klebsiella pneumoniae assays)
- 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
- Changes and correlations of intestinal flora and liver metabolite profiles in mice with gallstones
- Multiomics of tomato glandular trichomes reveals distinct features of central carbon metabolism supporting high productivity of specialized metabolites
- 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
- 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
- Analysis of Growth Phases of Enterotoxigenic Escherichia coli Reveals a Distinct Transition Phase before Entry into Early Stationary Phase with Shifts in Tryptophan, Fucose, and Putrescine Metabolism and Degradation of Neurotransmitter Precursors
- Metabolomic analysis of the mechanism of action of yerba mate extract on Salmonella Typhimurium
- Gut microbiome drives individual memory variation in bumblebees
- Long-term low-dose ionizing radiation induced chromosome-aberration-specific metabolic phenotype changes in radiation workers
- 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
- Transcriptome and Metabolome Analyses Reveal Differences in Terpenoid and Flavonoid Biosynthesis in Cryptomeria fortunei Needles Across Different Seasons
- The functional role of OGDH for maintaining mitochondrial respiration and identity of primed human embryonic stem cells
- Phosphoproteomic and Metabolomic Profiling Uncovers the Roles of CcPmk1 in the Pathogenicity of <i>Cytospora chrysosperma</i>
- Integrated Metabolomics and Transcriptomics Analyses Reveal Anthocyanin and Carotenoid Biosynthesis Involved in Color Development in Willow Bark
- Mechanism of interventional effect and targets of Zhuyu Pill in regulating and suppressing colitis and cholestasis
- Transcriptomic dynamics control rapid transition of core crop functions in 'lactating' pigeon
- Integrated Proteomic and Metabolomic Analyses Show Differential Effects of Glucose Availability in Marine <i>Synechococcus</i> and <i>Prochlorococcus</i>.
- Metabolic changes associated with tick-microbe interactions
- Genetic mapping and molecular mechanism behind color variation in the Asian vine snake
- Metabolic consequences of cobalamin scarcity in diatoms as revealed through metabolomics (Thalassiosira pseudonana study)
- 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
- rps2_wildtype_vs_rps2_A226Y
- G1_Klebsiella_pneumoniae_AJ218_RPMI_vs_G2_Klebsiella_pneumoniae_AJ218_Pooled_sera
- Control_vs_nsPEF_7_day
- Wild_Type_vs_YQ2-gal
- Control_vs_Day_12
- Control_vs_Lithogenic_Diet
- Solanum_habrochaites_leaf_vs_glandular_trichome
- Sham_vs_UIR
- 2:00 AM_Membrane_vs_2:00 AM_Net
- Sham_vs_UIR
- 400ppm_0min_vs_800ppm_60min
- ZH11_Mock_vs_ZH11_OsPep3
- E1777_Intracellular_MidLog_vs_E1777_Intracellular_EarlyStationary
- No_Tea_0min_vs_Tea_240min
- Hindgut_Control_vs_Lactobacillus_apis
- LLIR_vs_Control
- Sham_vs_Heart_Failure_Sedentary
- Sham_vs_Heart_Failure_Sedentary
- G1_Control_vs_G2_Arginine_Addition
- Summer_vs_Winter
- Wild_Type_vs_Gene_Knockdown
- CcPmk1_vs_Wild_type
- Purple_vs_Green
- Purple_vs_Green
- Control_vs_ZYP_High_Dose
- Male_19_days_vs_Male_1_day
- SS120_Control_vs_SS120_5mM
- SS120_Control_vs_SS120_5mM
- SS120_Control_vs_SS120_5mM
- SS120_Control_vs_SS120_5mM
- SS120_Control_vs_SS120_5mM
- SS120_Control_vs_SS120_5mM
- Uninfected_1h_vs_Anaplasma_phagocytophilum_1h
- Yellow_Skin_vs_Green_Skin
- Saturating_Limiting_vs_Saturating_Replete
- SAR-S_vs_SAR-R
- SAR-R_vs_SAR-S