2.6.1.82: putrescine-2-oxoglutarate transaminase
This is an abbreviated version!
For detailed information about putrescine-2-oxoglutarate transaminase, go to the full flat file.
Word Map on EC 2.6.1.82
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2.6.1.82
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cadaverine
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synthesis
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l-lysine
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gamma-aminobutyric
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gamma-aminobutyraldehyde
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agmatine
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transamination
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glutamicum
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volumetric
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corynebacterium
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5-aminovalerate
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pyrroline
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putida
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adaptor
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aminotransferases
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synchrotron
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l-arginine
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clpap
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n-degron
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catabolite
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klebsiella
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l-ornithine
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polyamide
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semialdehyde
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diamines
- 2.6.1.82
- cadaverine
- synthesis
- l-lysine
-
gamma-aminobutyric
- gamma-aminobutyraldehyde
- agmatine
-
transamination
- glutamicum
-
volumetric
-
corynebacterium
- 5-aminovalerate
-
pyrroline
- putida
- adaptor
- aminotransferases
-
synchrotron
- l-arginine
- clpap
-
n-degron
-
catabolite
-
klebsiella
- l-ornithine
- polyamide
- semialdehyde
-
diamines
Reaction
Synonyms
FG99_07980, KES24511, PatA, PATase, Pp-SpuC, putrescine aminotransferase, putrescine transaminase, putrescine-alpha-ketoglutarate transaminase, putrescine:2-oxoglutarate aminotransferase, SpuC, YgjG, YjgG
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2.6.1.82 putrescine-2-oxoglutarate transaminaseAdvanced search results
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General Information on EC 2.6.1.82 - putrescine-2-oxoglutarate transaminase
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GENERAL INFORMATION 
ORGANISM
UNIPROT
COMMENTARY 
LITERATURE
evolution
metabolism
physiological function
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a knockout mutation in alternative sigma factor, rpoS, abolishes putrescine-dependent ygjG-lacZ expression. RpoS overexpression induces ygjG-lacZ expression with putrescine supplementation but not without supplementation. The loss of putrescine-dependent ygjG-lacZ expression induced by rpoS is completely restored under nitrogen-starvation conditions. The putrescine-dependent expression of ygjG-lacZ under this condition is clearly dependent on alternative sigma factor, rpoN, and its cognate activator ntrC
additional information
evolution
the enzyme forms a dimer that adopts a class I transaminase fold comparable to other class III transaminases
evolution
Pseudomonas putida NBRC 14161
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the enzyme forms a dimer that adopts a class I transaminase fold comparable to other class III transaminases
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metabolism
promiscuous role of Pseudomonas putida Pp-SpuC in metabolism
metabolism
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the enzyme KES24511 is involved in the amino alkanoate catabolism of the 12-aminododecanoic acid-metabolizing Pseudomonas sp. strain AAC
metabolism
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the enzyme KES24511 is involved in the amino alkanoate catabolism of the 12-aminododecanoic acid-metabolizing Pseudomonas sp. strain AAC
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metabolism
Pseudomonas putida NBRC 14161
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promiscuous role of Pseudomonas putida Pp-SpuC in metabolism
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additional information
schematic representation of the amino acid residues forming the small and large binding pockets of Pp-SpuC around the external aldimine intermediate (PLP-substrate adduct). The model is based on the multiple sequence alignment analysis and on the active site structure of Vf-omega transaminase (PDB ID 4E3Q)
additional information
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schematic representation of the amino acid residues forming the small and large binding pockets of Pp-SpuC around the external aldimine intermediate (PLP-substrate adduct). The model is based on the multiple sequence alignment analysis and on the active site structure of Vf-omega transaminase (PDB ID 4E3Q)
additional information
Pseudomonas putida NBRC 14161
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schematic representation of the amino acid residues forming the small and large binding pockets of Pp-SpuC around the external aldimine intermediate (PLP-substrate adduct). The model is based on the multiple sequence alignment analysis and on the active site structure of Vf-omega transaminase (PDB ID 4E3Q)
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