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Literature summary extracted from

  • Haga, Y.; Kondo, H.; Kumagai, A.; Satoh, N.; Hirono, I.; Satoh, S.
    Isolation, molecular characterization of cysteine sulfinic acid decarboxylase (CSD) of red sea bream Pagrus major and yellowtail Seriola quinqueradiata and expression analysis of CSD from several marine fish species (2015), Aquaculture, 449, 8-17 .
No PubMed abstract available

Cloned(Commentary)

EC Number Cloned (Comment) Organism
4.1.1.29 DNA and amino acid sequence determination and analysis, sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Lateolabrax japonicus
4.1.1.29 DNA and amino acid sequence determination and analysis, sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Pagrus major
4.1.1.29 DNA and amino acid sequence determination and analysis, sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Seriola quinqueradiata
4.1.1.29 phylogenetic analysis, quantitative real-time PCR enzyme expression analysis Anguilla japonica
4.1.1.29 phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Verasper moseri
4.1.1.29 sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Cyprinus carpio
4.1.1.29 sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Danio rerio
4.1.1.29 sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Tetraodon nigroviridis
4.1.1.29 sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Gasterosteus aculeatus
4.1.1.29 sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Oryzias latipes
4.1.1.29 sequence comparisons and phylogenetic analysis, semiquantitative real-time PCR enzyme expression analysis Takifugu rubripes

Natural Substrates/ Products (Substrates)

EC Number Natural Substrates Organism Comment (Nat. Sub.) Natural Products Comment (Nat. Pro.) Rev. Reac.
4.1.1.29 3-sulfino-L-alanine Anguilla japonica
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Lateolabrax japonicus
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Cyprinus carpio
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Danio rerio
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Tetraodon nigroviridis
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Gasterosteus aculeatus
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Oryzias latipes
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Pagrus major
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Seriola quinqueradiata
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Takifugu rubripes
-
 hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine Verasper moseri
-
 hypotaurine + CO2
-
 ?

Organism

EC Number Organism UniProt Comment Textmining
4.1.1.29 Anguilla japonica
-
-
-
4.1.1.29 Cyprinus carpio Q2PFL0
-
-
4.1.1.29 Danio rerio Q5U3I6
-
-
4.1.1.29 Gasterosteus aculeatus G3P4S6
-
-
4.1.1.29 Lateolabrax japonicus
-
-
-
4.1.1.29 Oryzias latipes H2LVH5
-
-
4.1.1.29 Pagrus major A0A0N9E6Z6
-
-
4.1.1.29 Seriola quinqueradiata A0A0N9E6M5
-
-
4.1.1.29 Takifugu rubripes Q1KKU1
-
-
4.1.1.29 Tetraodon nigroviridis H3DC51
-
-
4.1.1.29 Verasper moseri
-
-
-

Source Tissue

EC Number Source Tissue Comment Organism Textmining
4.1.1.29 brain
-
 Pagrus major
-
4.1.1.29 brain strong expression Verasper moseri
-
4.1.1.29 gill
-
 Pagrus major
-
4.1.1.29 heart
-
 Pagrus major
-
4.1.1.29 heart strong expression Verasper moseri
-
4.1.1.29 kidney
-
 Lateolabrax japonicus
-
4.1.1.29 kidney
-
 Pagrus major
-
4.1.1.29 liver
-
 Lateolabrax japonicus
-
4.1.1.29 liver
-
 Pagrus major
-
4.1.1.29 liver weak expression Verasper moseri
-
4.1.1.29 liver high enzyme expression level Seriola quinqueradiata
-
4.1.1.29 additional information no enzyme expression in gill, heart, stomach, pancreas, and skeletal and dark muscles Seriola quinqueradiata
-
4.1.1.29 additional information no enzyme expression in heart Lateolabrax japonicus
-
4.1.1.29 additional information no enzyme expression in skeletal muscle Pagrus major
-
4.1.1.29 pancreas strong expression Verasper moseri
-
4.1.1.29 pyloric cecum
-
 Lateolabrax japonicus
-
4.1.1.29 pyloric cecum
-
 Pagrus major
-
4.1.1.29 pyloric cecum strong expression Verasper moseri
-
4.1.1.29 pyloric cecum high enzyme expression level Seriola quinqueradiata
-
4.1.1.29 spleen
-
 Pagrus major
-
4.1.1.29 spleen strong expression Verasper moseri
-
4.1.1.29 stomach
-
 Lateolabrax japonicus
-
4.1.1.29 stomach
-
 Pagrus major
-

Substrates and Products (Substrate)

EC Number Substrates Comment Substrates Organism Products Comment (Products) Rev. Reac.
4.1.1.29 3-sulfino-L-alanine
-
 Anguilla japonica hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Lateolabrax japonicus hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Cyprinus carpio hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Danio rerio hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Tetraodon nigroviridis hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Gasterosteus aculeatus hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Oryzias latipes hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Pagrus major hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Seriola quinqueradiata hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Takifugu rubripes hypotaurine + CO2
-
 ?
4.1.1.29 3-sulfino-L-alanine
-
 Verasper moseri hypotaurine + CO2
-
 ?

Synonyms

EC Number Synonyms Comment Organism
4.1.1.29 CSAD
-
 Anguilla japonica
4.1.1.29 CSAD
-
 Lateolabrax japonicus
4.1.1.29 CSAD
-
 Cyprinus carpio
4.1.1.29 CSAD
-
 Danio rerio
4.1.1.29 CSAD
-
 Tetraodon nigroviridis
4.1.1.29 CSAD
-
 Gasterosteus aculeatus
4.1.1.29 CSAD
-
 Oryzias latipes
4.1.1.29 CSAD
-
 Pagrus major
4.1.1.29 CSAD
-
 Seriola quinqueradiata
4.1.1.29 CSAD
-
 Takifugu rubripes
4.1.1.29 CSAD
-
 Verasper moseri
4.1.1.29 CSD
-
 Anguilla japonica
4.1.1.29 CSD
-
 Lateolabrax japonicus
4.1.1.29 CSD
-
 Cyprinus carpio
4.1.1.29 CSD
-
 Danio rerio
4.1.1.29 CSD
-
 Tetraodon nigroviridis
4.1.1.29 CSD
-
 Gasterosteus aculeatus
4.1.1.29 CSD
-
 Oryzias latipes
4.1.1.29 CSD
-
 Pagrus major
4.1.1.29 CSD
-
 Seriola quinqueradiata
4.1.1.29 CSD
-
 Takifugu rubripes
4.1.1.29 CSD
-
 Verasper moseri
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Anguilla japonica
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Lateolabrax japonicus
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Cyprinus carpio
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Danio rerio
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Tetraodon nigroviridis
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Gasterosteus aculeatus
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Oryzias latipes
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Pagrus major
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Seriola quinqueradiata
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Takifugu rubripes
4.1.1.29 Cysteine sulfinic acid decarboxylase
-
 Verasper moseri

Cofactor

EC Number Cofactor Comment Organism Structure
4.1.1.29 pyridoxal 5'-phosphate
-
 Anguilla japonica
4.1.1.29 pyridoxal 5'-phosphate
-
 Lateolabrax japonicus
4.1.1.29 pyridoxal 5'-phosphate
-
 Cyprinus carpio
4.1.1.29 pyridoxal 5'-phosphate
-
 Danio rerio
4.1.1.29 pyridoxal 5'-phosphate
-
 Tetraodon nigroviridis
4.1.1.29 pyridoxal 5'-phosphate
-
 Gasterosteus aculeatus
4.1.1.29 pyridoxal 5'-phosphate
-
 Oryzias latipes
4.1.1.29 pyridoxal 5'-phosphate
-
 Pagrus major
4.1.1.29 pyridoxal 5'-phosphate
-
 Seriola quinqueradiata
4.1.1.29 pyridoxal 5'-phosphate
-
 Takifugu rubripes
4.1.1.29 pyridoxal 5'-phosphate
-
 Verasper moseri

General Information

EC Number General Information Comment Organism
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Anguilla japonica
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Lateolabrax japonicus
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Cyprinus carpio
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Danio rerio
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Tetraodon nigroviridis
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Gasterosteus aculeatus
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Oryzias latipes
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Pagrus major
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Seriola quinqueradiata
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Takifugu rubripes
4.1.1.29 physiological function cysteine sulfinic acid decarboxylase catalyzes the reaction of decarboxylation of cysteine sulfinic acid into hypotaurine. This step is considered as a rate-limiting step of taurine biosynthesis. Marine fish generally show low taurine synthesis activity Verasper moseri