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NADase: Difference between revisions
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NADase | NADase or NAD+ase (also known as NAD+ glycohydrolase) refers to a group of enzymes playing a pivotal role in cellular longevity and aging due to its direct implication in the modulation of [[NAD+]] levels within the cell. NAD+, or Nicotinamide Adenine Dinucleotide, is a crucial coenzyme that participates in numerous metabolic and cellular processes, including energy metabolism, DNA repair, and the regulation of cellular aging. Elevated NADase activity can lead to decreased NAD+ levels, affecting cellular metabolism, reducing energy production, and potentially accelerating aging processes and age-related diseases. | ||
Reducing NADase enzymes by corresponding inhibitors is a way to boost NAD+ levels (see [[NAD+ Booster]]). | Reducing NADase enzymes by corresponding inhibitors is a way to boost NAD+ levels (see [[NAD+ Booster]]). | ||
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== Known NADase Enzymes == | == Known NADase Enzymes == | ||
NADase or NAD^+ase enzymes have implications in longevity due to their impact on [[NAD+]] levels within cells | NADase or NAD^+ase enzymes have implications in longevity due to their impact on [[NAD+]] levels within cells. Here is some information on known NADase enzymes. | ||
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