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
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halophil
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5-hydroxyectoine
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halomonas
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salexigens
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ironii
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non-heme-containing
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hydroxylases
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alaskensis
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sphingopyxis
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elongata
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stereo-specific
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osmostress
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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
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extremophiles
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prop
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apo-form
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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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General Information
General Information on EC 1.14.11.55 - ectoine hydroxylase
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physiological function
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the accumulation of the compatible solutes ectoine and 5-hydroxyectoine allows Streptomyces coelicolor A3(2) to fend off the detrimental effects of both high salinity and high temperature on cell physiology
physiological function
the ectoine content of single isoform EctE or EctD mutants is similar to that of the wild-type at any condition tested. The ectoine content of the double mutant EctD/EctE is slightly lower at high salinity. At high salinity, the hydroxyectoine level of the EctD mutant is reduced to 56.1% of the wild-type level, whereas that of the ectE mutant is not significatively lower. The double EctD/EctE mutant does not accumulate hydroxyectoine. At high salinity plus high temperature, the hydroxyectoine content of the EctE mutant is reduced to 37.6% of the wild-type level. Growth of the EctD and EctD/EctE mutants is severely impaired at high temperature
physiological function
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the ectoine content of single isoform EctE or EctD mutants is similar to that of the wild-type at any condition tested. The ectoine content of the double mutant EctD/EctE is slightly lower at high salinity. At high salinity, the hydroxyectoine level of the EctD mutant is reduced to 56.1% of the wild-type level, whereas that of the ectE mutant is not significatively lower. The double EctD/EctE mutant does not accumulate hydroxyectoine. At high salinity plus high temperature, the hydroxyectoine content of the EctE mutant is reduced to 37.6% of the wild-type level. Growth of the EctD and EctD/EctE mutants is severely impaired at high temperature
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physiological function
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the accumulation of the compatible solutes ectoine and 5-hydroxyectoine allows Streptomyces coelicolor A3(2) to fend off the detrimental effects of both high salinity and high temperature on cell physiology
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