1.5.1.25: thiomorpholine-carboxylate dehydrogenase
This is an abbreviated version!
For detailed information about thiomorpholine-carboxylate dehydrogenase, go to the full flat file.
Word Map on EC 1.5.1.25
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1.5.1.25
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thyroid
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nadph-dependent
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bioavailability
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cerebral
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unsaturated
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ovine
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l-cystathionine
- 1.5.1.25
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thyroid
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nadph-dependent
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bioavailability
- cerebral
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unsaturated
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ovine
- l-cystathionine
Reaction
Synonyms
CRYM, CtBP, cytosolic thyroid hormone binding protein, DELTA1-piperideine-2-carboxylate reductase, ketimine reductase, ketimine-reducing enzyme, KR/CRYM/CTBP, More, mu-crystallin, P2C reductase, PLP-dependent amino acid gamma-substitution enzyme, PYCR2, Pyr2C reductase, reductase, ketimine, THBP, thyroid hormone binding protein, Thyroid hormone-binding protein
ECTree
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Cofactor
Cofactor on EC 1.5.1.25 - thiomorpholine-carboxylate dehydrogenase
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NADH
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reduction rate for cystathionine ketimine, lanthionine ketimine and DELTA1-piperidine 2-carboxylate is higher with NADPH than with NADH. Reduction rate for S-aminoethylcysteine with NADH is higher than with NADPH
NADH
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NADH and NADPH show equal activity with cystathionine ketimine as substrate. Reduction of lanthionine ketimine with NADPH is faster than reduction with NADH. Reduction of S-aminoethylcysteine with NADH is faster than reduction with NADPH
NADPH
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reduction rate for cystathionine ketimine, lanthionine ketimine and DELTA1-piperidine 2-carboxylate is higher with NADPH than with NADH. Reduction rate for S-aminoethylcysteine with NADH is higher than with NADPH
NADPH
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NADH and NADPH show equal activity with cystathionine ketimine as substrate. Reduction of lanthionine ketimine with NADPH is faster than reduction with NADH. Reduction of S-aminoethylcysteine with NADH is faster than reduction with NADPH
the enzyme uses NADH and NADPH as reductant about equally well
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additional information
the enzyme uses NADH and NADPH as reductant about equally well
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