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NADH [CAS 58-68-4]

NADH [CAS 58-68-4]

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QM-0099715

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  • Description

    NADH
    CAS: 58-68-4
    Applications
    1. Enzyme Activity Assays
    • Widely used as a coenzyme in dehydrogenase-based enzyme assays
    • Supports measurement of oxidoreductase activity in biochemical workflows
    • Applicable in kinetic studies and enzyme screening platforms
    • Useful in spectrophotometric assays based on NADH oxidation at 340 nm
    2. Metabolism Research
    • Central reagent for studies of cellular respiration and energy metabolism
    • Used in research on glycolysis, the TCA cycle, and mitochondrial function
    • Supports redox balance and metabolic flux investigations
    • Applicable in cellular bioenergetics and metabolic regulation studies
    3. Mitochondrial Function Studies
    • Used in assays evaluating electron transport chain activity
    • Relevant in studies of oxidative phosphorylation and ATP production
    • Supports research on mitochondrial dysfunction and stress responses
    • Useful in disease models linked to metabolic and mitochondrial imbalance
    4. Cell Biology & Redox Research
    • Supports studies of intracellular redox status and reducing capacity
    • Used in investigations of oxidative stress and antioxidant systems
    • Applicable in viability, proliferation, and stress-response assays
    • Relevant to signaling pathways influenced by cellular redox balance
    5. Diagnostic & Clinical Chemistry Research
    • Used in reagent systems for biochemical and clinical assay development
    • Applicable in coupled enzymatic detection methods
    • Supports development of analytical kits for metabolite quantification
    • Relevant in research involving lactate, glucose, alcohol, and related analytes
    6. Biosensor & Analytical Development
    • Used in biosensor research involving dehydrogenase-coupled detection
    • Supports electrochemical and optical assay development
    • Useful in signal amplification strategies for metabolite analysis
    • Applicable in research on rapid analytical platforms and diagnostic devices
    7. Drug Discovery & Screening
    • Used in screening assays targeting NAD(H)-dependent enzymes
    • Supports inhibitor profiling and pathway-focused compound evaluation
    • Relevant in discovery workflows involving metabolic enzymes
    • Useful in assay platforms for mechanistic and pharmacological studies
    8. General Laboratory Research
    • Useful as a standard biochemical reagent in academic and industrial laboratories
    • Applied in cofactor supplementation for in vitro reaction systems
    • Supports teaching, assay optimization, and mechanistic investigations
    • Suitable for broad use in biochemistry, molecular biology, and life science research

  • CAS Number

    [58-68-4]

  • Molecular Formula

    C21H29N7O14P2

  • Molecular Weight

    665.44

  • Smiles

    O[C@H]1[C@@H](O[C@@H]([C@H]1O)COP(OP(OC[C@H]2O[C@@H](N3C=C(CC=C3)C(N)=O)[C@@H]([C@@H]2O)O)(O)=O)(O)=O)N4C5=NC=NC(N)=C5N=C4

  • Target

    Endogenous Metabolite

  • Isoform

    Human Endogenous Metabolite

  • Solubility

    10 mM in DMSO

  • Shipping Conditions

    Room temperature

  • Hazard Statement

    H315-H319-H320

  • Precautions

    P264-P280-P302+P352-P305+P351+P338-P362
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NADH [CAS 58-68-4]

NADH
CAS: 58-68-4
Applications
1. Enzyme Activity Assays
  • Widely used as a coenzyme in dehydrogenase-based enzyme assays
  • Supports measurement of oxidoreductase activity in biochemical workflows
  • Applicable in kinetic studies and enzyme screening platforms
  • Useful in spectrophotometric assays based on NADH oxidation at 340 nm
2. Metabolism Research
  • Central reagent for studies of cellular respiration and energy metabolism
  • Used in research on glycolysis, the TCA cycle, and mitochondrial function
  • Supports redox balance and metabolic flux investigations
  • Applicable in cellular bioenergetics and metabolic regulation studies
3. Mitochondrial Function Studies
  • Used in assays evaluating electron transport chain activity
  • Relevant in studies of oxidative phosphorylation and ATP production
  • Supports research on mitochondrial dysfunction and stress responses
  • Useful in disease models linked to metabolic and mitochondrial imbalance
4. Cell Biology & Redox Research
  • Supports studies of intracellular redox status and reducing capacity
  • Used in investigations of oxidative stress and antioxidant systems
  • Applicable in viability, proliferation, and stress-response assays
  • Relevant to signaling pathways influenced by cellular redox balance
5. Diagnostic & Clinical Chemistry Research
  • Used in reagent systems for biochemical and clinical assay development
  • Applicable in coupled enzymatic detection methods
  • Supports development of analytical kits for metabolite quantification
  • Relevant in research involving lactate, glucose, alcohol, and related analytes
6. Biosensor & Analytical Development
  • Used in biosensor research involving dehydrogenase-coupled detection
  • Supports electrochemical and optical assay development
  • Useful in signal amplification strategies for metabolite analysis
  • Applicable in research on rapid analytical platforms and diagnostic devices
7. Drug Discovery & Screening
  • Used in screening assays targeting NAD(H)-dependent enzymes
  • Supports inhibitor profiling and pathway-focused compound evaluation
  • Relevant in discovery workflows involving metabolic enzymes
  • Useful in assay platforms for mechanistic and pharmacological studies
8. General Laboratory Research
  • Useful as a standard biochemical reagent in academic and industrial laboratories
  • Applied in cofactor supplementation for in vitro reaction systems
  • Supports teaching, assay optimization, and mechanistic investigations
  • Suitable for broad use in biochemistry, molecular biology, and life science research