4.1.1.50: adenosylmethionine decarboxylase
This is an abbreviated version!
For detailed information about adenosylmethionine decarboxylase, go to the full flat file.
Word Map on EC 4.1.1.50
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4.1.1.50
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polyamine
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spermidine
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putrescine
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methylglyoxal
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bisguanylhydrazone
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diamine
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alpha-difluoromethylornithine
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brucei
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prostate
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decarboxylases
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l-ornithine
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trypanosoma
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n1-acetyltransferase
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antiproliferative
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proenzyme
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pyruvoyl
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aminopropyltransferases
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agmatine
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agriculture
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1,3-diaminopropane
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synthesis
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pentamidine
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trypanosomatids
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n1-acetylspermidine
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medicine
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pao
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pharmacology
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adenosyltransferase
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antizyme
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dl-alpha-difluoromethylornithine
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glyoxal
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drought
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rhodesiense
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trypanosomiasis
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analysis
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trypanothione
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guanylhydrazone
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difluoromethylornithine
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uorfs
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normfinder
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methylthioadenosine
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biotechnology
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arginase
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polyamine-depleted
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cadaverine
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genorm
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berenil
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enzyme-activated
- 4.1.1.50
- polyamine
- spermidine
- putrescine
- methylglyoxal
- bisguanylhydrazone
- diamine
- alpha-difluoromethylornithine
- brucei
- prostate
- decarboxylases
- l-ornithine
- trypanosoma
-
n1-acetyltransferase
-
antiproliferative
- proenzyme
-
pyruvoyl
- aminopropyltransferases
- agmatine
- agriculture
- 1,3-diaminopropane
- synthesis
- pentamidine
-
trypanosomatids
- n1-acetylspermidine
- medicine
- pao
- pharmacology
-
adenosyltransferase
- antizyme
- dl-alpha-difluoromethylornithine
- glyoxal
- drought
- rhodesiense
- trypanosomiasis
- analysis
- trypanothione
-
guanylhydrazone
- difluoromethylornithine
-
uorfs
-
normfinder
- methylthioadenosine
- biotechnology
- arginase
-
polyamine-depleted
- cadaverine
-
genorm
- berenil
-
enzyme-activated
Reaction
Synonyms
Ado-MetDC, AdoMet decarboxylase, AdoMetDC, AdoMetDC/ODC, AMDC, BjSAMDC1, BjSAMDC2, BjSAMDC3, BjSAMDC4, BlsE, Bud2, MdSAMDC1, MdSAMDC2, OsSAMDC, PfAdoMetDC, protein SSO0585, S-adenosyl methionine decarboxylase, S-Adenosyl-L-methionine decarboxylase, S-adenosyl-methionine-decarboxylase, S-adenosylmethionine decarboxy-lase/ornithine decarboxylase, S-Adenosylmethionine decarboxylase, S-adenosylmethionine decarboxylase 1, S-adenosylmethionine decarboxylase 2, S-adenosylmethionine decarboxylase 3, S-adenosylmethionine decarboxylase 4, SAM decarboxylase, SAM-DC, SAMDC, SvPEPC, Tb927.6.4410
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Posttranslational Modification
Posttranslational Modification on EC 4.1.1.50 - adenosylmethionine decarboxylase
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proteolytic modification
side-chain modification
additional information
proteolytic modification
alpha-subunit, 32000 Da, and beta-subunit, 10000 Da, are derived from cleavage of the proenzyme. The mRNA has an unusually long 5'-untranslated region of 477 nucleotides. This region has a small open reading frame, which can encode a putative peptide of 17000 residues
proteolytic modification
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proenzyme of 39600 Da is cleaved to alpha subunit, 30600 Da, and beta subunit, 8900 Da
proteolytic modification
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protein of 37000 Da is converted into the enzyme subunit of MW 32000. Putrescine accelerates the conversion
proteolytic modification
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the recombinant protein undergoes autocatalytic cleavage, generating a 33000-34000 Da alpha-subunit and a 9000 Da beta-subunit
proteolytic modification
autocatalytic processing of 42000 Da protein to 32000 + 10000 Da
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alkylation of Cys140, mechanism-based suicide inactivation
side-chain modification
alkylation of a Cys residue, mechanism-based suicide inactivation
side-chain modification
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alkylation of a Cys residue, mechanism-based suicide inactivation
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
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AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
-
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
-
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
-
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain
additional information
-
AdoMetDC is expressed as an inactive proenzyme that undergoes autoprocessing to the active enzyme. The autoprocessing involves an internal serinolysis reaction leading to the cleavage of the backbone to alpha and beta subunits with the latter being the smaller subunit and to generation of a pyruvoyl group at the N-terminus of the alpha chain