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
-
schramm
- hypoxanthine
-
transition-state
-
n-glycosidic
Reaction
Synonyms
adenosine monophosphate nucleosidase, adenylate nucleosidase, AMN, AMP ribosidase, More
ECTree
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Engineering
Engineering on EC 3.2.2.4 - AMP nucleosidase
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additional information
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treatment with nitrosoguanidine leads to mutants defective in degrading AMP
additional information
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hanging drop vapor diffusion method, complexed with formycin 5'-monophosphate or inorganic phosphate
additional information
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in enzyme knockout mutant exhibits elevated intracellular ATP levels by more than 30% across its viable temperature range. Mutant cells stored at 0°C for 7 days display approximately fivefold higher cell viability than wild-type
additional information
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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
additional information
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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