1.14.11.55: ectoine hydroxylase
This is an abbreviated version!
For detailed information about ectoine hydroxylase, go to the full flat file.
Word Map on EC 1.14.11.55
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1.14.11.55
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2-oxoglutarate-dependent
-
halophil
-
5-hydroxyectoine
-
halomonas
-
salexigens
-
ironii
-
non-heme-containing
-
hydroxylases
-
alaskensis
-
sphingopyxis
-
elongata
-
stereo-specific
-
osmostress
-
mechanosensitive
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tetrahydropyrimidine
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ectabc
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stutzeri
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osmolarity
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virgibacillus
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co-substrate
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halotolerant
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maritimus
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chassis
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salina
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region-selective
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thermoregulated
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nitrosopumilus
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chromohalobacter
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thermoprotection
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alkaliphilic
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hydrothermalis
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sitting-drop
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synthesis
-
extremophiles
-
prop
-
apo-form
-
monosodium
- 1.14.11.55
-
2-oxoglutarate-dependent
-
halophil
- 5-hydroxyectoine
-
halomonas
- salexigens
-
ironii
-
non-heme-containing
- hydroxylases
- alaskensis
-
sphingopyxis
- elongata
-
stereo-specific
-
osmostress
-
mechanosensitive
-
tetrahydropyrimidine
-
ectabc
- stutzeri
-
osmolarity
-
virgibacillus
-
co-substrate
-
halotolerant
- maritimus
-
chassis
- salina
-
region-selective
-
thermoregulated
- nitrosopumilus
-
chromohalobacter
-
thermoprotection
-
alkaliphilic
- hydrothermalis
-
sitting-drop
- synthesis
-
extremophiles
-
prop
-
apo-form
-
monosodium
Reaction
Synonyms
Csal_3003, ectD, EctE, ectoine dioxygenase, HELO_4008, REctD, Sala_2952, SCATT_10620, ThpD
ECTree
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Metals Ions
Metals Ions on EC 1.14.11.55 - ectoine hydroxylase
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Fe2+
Iron
KCl
NaCl
JN019030
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
Iron
JN019031
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
Iron
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
Iron
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
Iron
-
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
Iron
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
Iron
the iron ligand is bound via interaction with histidine side-chains His146 and His248, and the side-chain of Asp-148. These residues form a conserved H6D/E
H motif, the so-called 2-His-1-carboxylate facial triad
JN019030
maximum activity in presence of 50 mM KCl. High concentrations of NaCl are inhibitory
NaCl
JN019031
maximum activity in presence of 150 mM KCl. High concentrations of NaCl are inhibitory
NaCl
maximum activity in presence of 100 mM KCl. High concentrations of NaCl are inhibitory
NaCl
maximum activity in presence of 150 mM KCl. High concentrations of NaCl are inhibitory
NaCl
-
maximum activity in presence of 100 mM KCl. High concentrations of NaCl are inhibitory
NaCl
maximum activity in presence of 100 mM KCl. High concentrations of NaCl are inhibitory
NaCl
maximum activity in presence of 100 mM KCl. High concentrations of NaCl are inhibitory