4.1.1.18: lysine decarboxylase
This is an abbreviated version!
For detailed information about lysine decarboxylase, go to the full flat file.
Word Map on EC 4.1.1.18
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4.1.1.18
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ornithine
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urease
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aeromonas
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dihydrolase
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decarboxylases
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voges-proskauer
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dna-dna
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esculin
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non-motile
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cadba
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salicin
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1,5-diaminopentane
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d-mannitol
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melibiose
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dulcitol
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ruminantium
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adonitol
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selenomonas
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sobria
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enteroinvasive
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d-sorbitol
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carbenicillin
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cephalothin
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corrodens
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simmons
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alvei
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macconkey
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quinolizidine
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hafnia
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eikenella
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huperzia
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d-arabitol
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4.1.1.17
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synthesis
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medicine
- 4.1.1.18
- ornithine
- urease
- aeromonas
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dihydrolase
- decarboxylases
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voges-proskauer
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dna-dna
- esculin
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non-motile
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cadba
- salicin
- 1,5-diaminopentane
- d-mannitol
- melibiose
- dulcitol
- ruminantium
- adonitol
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selenomonas
- sobria
-
enteroinvasive
- d-sorbitol
- carbenicillin
- cephalothin
- corrodens
-
simmons
- alvei
-
macconkey
-
quinolizidine
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hafnia
- eikenella
- huperzia
- d-arabitol
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4.1.1.17
- synthesis
- medicine
Reaction
Synonyms
AsLdc, CadA, constitutive LDCc, constitutive lysine decarboxylase, DesA, EcLDCc, ECORLD, gtLDC, inducible lysine decarboxylase, L-Lys-OD, L-lysine decarboxylase, LDC, ldcC, LdcI, LdcI/CadA, LysA, lysine decarboxylase, MaLDC, multimeric lysine decarboxylase, SrLDC, VSAL_I2491
ECTree
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Natural Substrates Products
Natural Substrates Products on EC 4.1.1.18 - lysine decarboxylase
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REACTION DIAGRAM
L-Lys
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enzyme activity is positively correlated with the chlorophyll content during leaf regreening. The enzyme is an integrated part of the alkaloid specific biosynthetic sequence
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L-Lys
Cadaverine + CO2
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L-Lys
Cadaverine + CO2
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L-Lys
Cadaverine + CO2
constitutive enzyme is involved in synthesis of cadaverine, which is an essential constituent of the peptidoglycan for normal cell growth
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L-lysine
cadaverine + CO2
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CadA protects Escherichia coli starved of phosphate against fermentation acids in the host gut, the tolerance of the starved cells to fermentation acids is markedly increased as a result of the activity of the inducible CadBA lysine-dependent acid resistance system, independent of expression of the RpoS regulon, overview
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L-lysine
cadaverine + CO2
Klebsiella aerogenes ATCC 13048 / DSM 30053 / JCM 1235 / KCTC 2190 / NBRC 13534 / NCIMB 10102 / NCTC 10006
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L-lysine
cadaverine + CO2
Klebsiella oxytoca ATCC 8724 / DSM 4798 / JCM 20051 / NBRC 3318 / NRRL B-199 / KCTC 1686
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when used for whole-cell biotransformation of L-lysine to cadaverine at pH 7.5, 37°C, recombinant AsLdc in Escherichia coli cells completes the transformation within 7 h
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additional information
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optimization of direct lysine decarboxylase biotransformation of lysine to cadaverine for cadaverine production with whole-cell biocatalysts at high lysine concentration. Consumption of 91% lysine and conversion of about 80% lysine to cadaverine at 0.025 mM pyridoxal 5'-phosphate and 1.75 M lysine in 500 mM sodium acetate buffer, pH 6.0
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additional information
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optimization of direct lysine decarboxylase biotransformation of lysine to cadaverine for cadaverine production with whole-cell biocatalysts at high lysine concentration. Consumption of 91% lysine and conversion of about 80% lysine to cadaverine at 0.025 mM pyridoxal 5'-phosphate and 1.75 M lysine in 500 mM sodium acetate buffer, pH 6.0
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additional information
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the cofactor pyridoxal 5'-phosphate-dependent decarboxylation of the amino acid into a polyamine is catalysed in a multistep reaction that consumes a cytoplasmic proton and produces a CO2 molecule passively diffusing out of the cell, while the polyamine is excreted by the antiporter in exchange for a new amino acid substrate
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additional information
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the cofactor pyridoxal 5'-phosphate-dependent decarboxylation of the amino acid into a polyamine is catalysed in a multistep reaction that consumes a cytoplasmic proton and produces a CO2 molecule passively diffusing out of the cell, while the polyamine is excreted by the antiporter in exchange for a new amino acid substrate
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additional information
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the cofactor pyridoxal 5'-phosphate-dependent decarboxylation of the amino acid into a polyamine is catalysed in a multistep reaction that consumes a cytoplasmic proton and produces a CO2 molecule passively diffusing out of the cell, while the polyamine is excreted by the antiporter in exchange for a new amino acid substrate
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additional information
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Escherichia coli K-12 / MG1655
optimization of direct lysine decarboxylase biotransformation of lysine to cadaverine for cadaverine production with whole-cell biocatalysts at high lysine concentration. Consumption of 91% lysine and conversion of about 80% lysine to cadaverine at 0.025 mM pyridoxal 5'-phosphate and 1.75 M lysine in 500 mM sodium acetate buffer, pH 6.0
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additional information
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whole-cell bioconversion by Klebsiella pneumoniae lysine decaarboxylase LdcC is markedly lower than that of Klebsiella pneumoniae lysine decarboxylase CadA in Klebsiella pneumoniae cells and in transformed Escherichia coli cells
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additional information
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whole-cell bioconversion by Klebsiella pneumoniae lysine decaarboxylase LdcC is markedly lower than that of Klebsiella pneumoniae lysine decarboxylase CadA in Klebsiella pneumoniae cells and in transformed Escherichia coli cells
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additional information
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Klebsiella aerogenes ATCC 13048 / DSM 30053 / JCM 1235 / KCTC 2190 / NBRC 13534 / NCIMB 10102 / NCTC 10006
whole-cell bioconversion by Klebsiella pneumoniae lysine decaarboxylase LdcC is markedly lower than that of Klebsiella pneumoniae lysine decarboxylase CadA in Klebsiella pneumoniae cells and in transformed Escherichia coli cells
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