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4-hydroxyphenylpyruvate + NADPH + H+
3-(4-hydroxyphenyl)lactate + NADP+
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?
D-glycerate + NAD+
hydroxypyruvate + NADH + H+
D-glycerate + NADP+
hydroxypyruvate + NADPH + H+
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-
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r
glyoxylate + NAD(P)H
glycolate + NAD(P)+
glyoxylate + NADPH + H+
glycolate + NADP+
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-
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
hydroxypyruvate + NAD(P)H + H+
D-glycerate + NAD(P)+
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-
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?
hydroxypyruvate + NADH + H+
D-glycerate + NAD+
hydroxypyruvate + NADPH
D-glycerate + NADP+
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
additional information
?
-
D-glycerate + NAD+
hydroxypyruvate + NADH + H+
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?
D-glycerate + NAD+
hydroxypyruvate + NADH + H+
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?
glyoxylate + NAD(P)H
glycolate + NAD(P)+
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the enzyme is involved in removal of the metabolic by-product from liver
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?
glyoxylate + NAD(P)H
glycolate + NAD(P)+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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-
?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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cofactor NADPH, 80% of activity with NADH, rate of oxidation reaction: 1.5% of reduction reaction only with cofactor NADH
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r
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NAD(P)H
D-glycerate + NAD(P)+ + H+
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?
hydroxypyruvate + NADH + H+
D-glycerate + NAD+
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?
hydroxypyruvate + NADH + H+
D-glycerate + NAD+
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?
hydroxypyruvate + NADH + H+
D-glycerate + NAD+
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?
hydroxypyruvate + NADH + H+
D-glycerate + NAD+
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?
hydroxypyruvate + NADH + H+
D-glycerate + NAD+
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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r
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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r
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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-
r
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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-
r
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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r
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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key enzyme of the serine cycle
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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key enzyme of the serine cycle
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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?
hydroxypyruvate + NADPH + H+
D-glycerate + NADP+
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?
additional information
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HPR3 prefers NADPH over NADH and converts glycerate to hydroxypyruvate, the purified recombinant HPR3 shows similar activity with hydroxypyruvate and glyoxylate
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additional information
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HPR3 prefers NADPH over NADH and converts glycerate to hydroxypyruvate, the purified recombinant HPR3 shows similar activity with hydroxypyruvate and glyoxylate
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additional information
?
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HPR3 prefers NADPH over NADH and converts glycerate to hydroxypyruvate, the purified recombinant HPR3 shows similar activity with hydroxypyruvate and glyoxylate
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additional information
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HPR3 prefers NADPH over NADH and converts glycerate to hydroxypyruvate, the purified recombinant HPR3 shows similar activity with hydroxypyruvate and glyoxylate
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additional information
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HPR3 prefers NADPH over NADH and converts glycerate to hydroxypyruvate, the purified recombinant HPR3 shows similar activity with hydroxypyruvate and glyoxylate
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additional information
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the recombinant AtHPR1 prefers NADH over NADPH and hydroxypyruvate over glyoxylate. Isozyme AtHPR1 also converts glyoxylate to glycolate, albeit with much lower catalytic efficiency than for hydroxypyruvate
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additional information
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the recombinant AtHPR1 prefers NADH over NADPH and hydroxypyruvate over glyoxylate. Isozyme AtHPR1 also converts glyoxylate to glycolate, albeit with much lower catalytic efficiency than for hydroxypyruvate
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additional information
?
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the recombinant AtHPR1 prefers NADH over NADPH and hydroxypyruvate over glyoxylate. Isozyme AtHPR1 also converts glyoxylate to glycolate, albeit with much lower catalytic efficiency than for hydroxypyruvate
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?
additional information
?
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the recombinant AtHPR1 prefers NADH over NADPH and hydroxypyruvate over glyoxylate. Isozyme AtHPR1 also converts glyoxylate to glycolate, albeit with much lower catalytic efficiency than for hydroxypyruvate
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?
additional information
?
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the recombinant AtHPR1 prefers NADH over NADPH and hydroxypyruvate over glyoxylate. Isozyme AtHPR1 also converts glyoxylate to glycolate, albeit with much lower catalytic efficiency than for hydroxypyruvate
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additional information
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the recombinant AtHPR2 prefers NADPH over NADH but utilizes hydroxypyruvate and glyoxylate similarly
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additional information
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the recombinant AtHPR2 prefers NADPH over NADH but utilizes hydroxypyruvate and glyoxylate similarly
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additional information
?
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the recombinant AtHPR2 prefers NADPH over NADH but utilizes hydroxypyruvate and glyoxylate similarly
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additional information
?
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the recombinant AtHPR2 prefers NADPH over NADH but utilizes hydroxypyruvate and glyoxylate similarly
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additional information
?
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the recombinant AtHPR2 prefers NADPH over NADH but utilizes hydroxypyruvate and glyoxylate similarly
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additional information
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enzyme deficiency leads to primary hyperoxaluria type 2 with increased urinary oxalate levels, formation of kidney stones, and renal failure
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additional information
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the enzyme is transcriptionally regulated by the peroxisome proliferator-activated receptor alpha, PPARalpha, in liver, overview
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