BRENDA - Enzyme Database show
show all sequences of 1.1.1.125

Novel insights into E. colis hexuronate metabolism: KduI facilitates the conversion of galacturonate and glucuronate under osmotic stress conditions

Rothe, M.; Alpert, C.; Loh, G.; Blaut, M.; PLoS ONE 8, e56906 (2013)

Data extracted from this reference:

Organism
Organism
Primary Accession No. (UniProt)
Commentary
Textmining
Escherichia coli
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Source Tissue
Source Tissue
Commentary
Organism
Textmining
Source Tissue (protein specific)
Source Tissue
Commentary
Organism
Textmining
Expression
Organism
Commentary
Expression
Escherichia coli
galacturonate and glucuronate induced kduD and kduI gene expression 3fold and 7 to 11fold, respectively, under aerobic conditions as well as 9 to 20fold and 19 to 54fold, respectively, under anaerobic conditions
up
General Information
General Information
Commentary
Organism
malfunction
when grown in the presence of galacturonate or glucuronate, kduID deficient Escherichia coli have a 30% to 80% lower maximal cell density and 1.5 to 2fold longer doubling times under osmotic stress conditions than wild type Escherichia coli
Escherichia coli
General Information (protein specific)
General Information
Commentary
Organism
malfunction
when grown in the presence of galacturonate or glucuronate, kduID deficient Escherichia coli have a 30% to 80% lower maximal cell density and 1.5 to 2fold longer doubling times under osmotic stress conditions than wild type Escherichia coli
Escherichia coli
Expression (protein specific)
Organism
Commentary
Expression
Escherichia coli
galacturonate and glucuronate induced kduD and kduI gene expression 3fold and 7 to 11fold, respectively, under aerobic conditions as well as 9 to 20fold and 19 to 54fold, respectively, under anaerobic conditions
up
Other publictions for EC 1.1.1.125
No.
1st author
Pub Med
title
organims
journal
volume
pages
year
Activating Compound
Application
Cloned(Commentary)
Crystallization (Commentary)
Engineering
General Stability
Inhibitors
KM Value [mM]
Localization
Metals/Ions
Molecular Weight [Da]
Natural Substrates/ Products (Substrates)
Organic Solvent Stability
Organism
Oxidation Stability
Posttranslational Modification
Purification (Commentary)
Reaction
Renatured (Commentary)
Source Tissue
Specific Activity [micromol/min/mg]
Storage Stability
Substrates and Products (Substrate)
Subunits
Temperature Optimum [C]
Temperature Range [C]
Temperature Stability [C]
Turnover Number [1/s]
pH Optimum
pH Range
pH Stability
Cofactor
Ki Value [mM]
pI Value
IC50 Value
Activating Compound (protein specific)
Application (protein specific)
Cloned(Commentary) (protein specific)
Cofactor (protein specific)
Crystallization (Commentary) (protein specific)
Engineering (protein specific)
General Stability (protein specific)
IC50 Value (protein specific)
Inhibitors (protein specific)
Ki Value [mM] (protein specific)
KM Value [mM] (protein specific)
Localization (protein specific)
Metals/Ions (protein specific)
Molecular Weight [Da] (protein specific)
Natural Substrates/ Products (Substrates) (protein specific)
Organic Solvent Stability (protein specific)
Oxidation Stability (protein specific)
Posttranslational Modification (protein specific)
Purification (Commentary) (protein specific)
Renatured (Commentary) (protein specific)
Source Tissue (protein specific)
Specific Activity [micromol/min/mg] (protein specific)
Storage Stability (protein specific)
Substrates and Products (Substrate) (protein specific)
Subunits (protein specific)
Temperature Optimum [C] (protein specific)
Temperature Range [C] (protein specific)
Temperature Stability [C] (protein specific)
Turnover Number [1/s] (protein specific)
pH Optimum (protein specific)
pH Range (protein specific)
pH Stability (protein specific)
pI Value (protein specific)
Expression
General Information
General Information (protein specific)
Expression (protein specific)
KCat/KM [mM/s]
KCat/KM [mM/s] (protein specific)
726324
Rothe
Novel insights into E. colis h ...
Escherichia coli
PLoS ONE
8
e56906
2013
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285818
Eichhorn
Microbial metabolism of 2-deox ...
Pseudomonas sp.
Biochemistry
4
159-165
1965
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