2.7.2.2: carbamate kinase
This is an abbreviated version!
For detailed information about carbamate kinase, go to the full flat file.
Word Map on EC 2.7.2.2
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2.7.2.2
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ornithine
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deiminase
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dihydrolase
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citrulline
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transcarbamoylase
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carbamyltransferase
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arcabc
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n-acetyl-l-glutamate
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drug development
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degradation
- 2.7.2.2
- ornithine
- deiminase
-
dihydrolase
- citrulline
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transcarbamoylase
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carbamyltransferase
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arcabc
- n-acetyl-l-glutamate
- drug development
- degradation
Reaction
Synonyms
ACK, anabolic carbamyl kinase, ArcC, carbamate kinase, carbamoyl phosphokinase, carbamyl phosphokinase, catabolic carbamyl kinase, Cbk, CCK, CK, CK-like CPS, CKase, GlcK, kinase, carbamate (phosphorylating), putrescine synthase
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Metals Ions
Metals Ions on EC 2.7.2.2 - carbamate kinase
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Bivalent cation
Co2+
Fe2+
Mg2+
Mn2+
additional information
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required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Bivalent cation
-
required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Bivalent cation
-
required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Bivalent cation
-
required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Bivalent cation
-
required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
-
bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Co2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Co2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Co2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Fe2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Fe2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Fe2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Mg2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Mg2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Mg2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
-
bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Mn2+
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bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Mn2+
-
bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
Mn2+
-
bivalent cation required, Mg2+ is the most commonly used, enzyme from Streptococcus lactis is also fully active with Mn2+ and less so with Fe2+ and Co2+
additional information
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activity in HEPES buffer is twice that in potassium citrate buffer at pH 6.0