3.2.2.4: AMP nucleosidase
This is an abbreviated version!
For detailed information about AMP nucleosidase, go to the full flat file.
Word Map on EC 3.2.2.4
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3.2.2.4
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vinelandii
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azotobacter
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deaminase
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formycin
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ribose
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5-phosphate
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synthesis
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5'-monophosphate
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schramm
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hypoxanthine
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transition-state
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n-glycosidic
- 3.2.2.4
- vinelandii
- azotobacter
- deaminase
- formycin
- ribose
- 5-phosphate
- synthesis
- 5'-monophosphate
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schramm
- hypoxanthine
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transition-state
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n-glycosidic
Reaction
Synonyms
adenosine monophosphate nucleosidase, adenylate nucleosidase, AMN, AMP ribosidase, More
ECTree
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Substrates Products
Substrates Products on EC 3.2.2.4 - AMP nucleosidase
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REACTION DIAGRAM
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171815, 171817, 171818, 171820, 171821, 171822, 171823, 171824, 171825, 171826, 171827, 171828, 171830, 171831, 171835, 171836, 171837, 171838, 171839, 171840, 171841, 171842, 171844, 171845, 171846, 171847, 171848, 171849
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AMP + H2O
D-ribose 5-phosphate + adenine
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the enzyme is restricted to prokaryotes and is involved in purine nucleoside salvage and intracellular AMP level regulation, enzyme regulation involving the N-terminal regulatory domain of the subunits
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AMP nucleosidase activity leads to glucose-independent dihydroxyacetone phosphate production from adenosine phosphates in an insulated in vitro multi-step enzymatic system to carry out complex and thermodynamically unfavorable chemical conversions and biotransformations, e.g. dihydroxyacetone phosphate formation, and the gene has thus to be inhibited, overview
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additional information
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Escherichia coli W3110 / ATCC 27325
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AMP nucleosidase activity leads to glucose-independent dihydroxyacetone phosphate production from adenosine phosphates in an insulated in vitro multi-step enzymatic system to carry out complex and thermodynamically unfavorable chemical conversions and biotransformations, e.g. dihydroxyacetone phosphate formation, and the gene has thus to be inhibited, overview
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