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EC Number
Natural Substrates
Commentary (Nat. Sub.)
1.6.3.2
2 NAD(P)H + H+ + O2
in anaerobes, flavin-dependent NAD(P)H oxidases play an important role protecting organisms from oxidative stress
1.6.3.2
2 NADH + H+ + O2
reaction is catalyzed by the native dimeric protein under physiological conditions (low amounts of O2) to detoxify O2. Oxidative stress induced conformational change implicates a functional switch of the enzyme. The oxidized enzyme protein can accelerate the aggregation of partially unfolded proteins. It can also bind nucleic acids and produce H2O2 to destroy DNA and RNA with the ultimate function of decreasing cell viability
1.6.3.2
2 NADPH + 2 H+ + O2
-
1.6.3.2
2 NADPH + 2 H+ + O2
reaction is catalyzed by the native dimeric protein under physiological conditions (low amounts of O2) to detoxify O2. Oxidative stress induced conformational change implicates a functional switch of the enzyme. The oxidized enzyme protein can accelerate the aggregation of partially unfolded proteins. It can also bind nucleic acids and produce H2O2 to destroy DNA and RNA with the ultimate function of decreasing cell viability
1.6.3.2
2 NADPH + 2 H+ + O2
the enzyme may be involved in maintenance of an optimum intracellular redox ratio
1.6.3.2
NADH + H+ + O2
-
1.6.3.2
NADPH + H+ + O2
-
1.6.3.2
NADPH + H+ + O2
the enzyme prefers NADPH over NADH
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