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Literature summary extracted from

  • Thuku, R.; Brady, D.; Benedik, M.; Sewell, B.
    Microbial nitrilases: Versatile, spiral forming, industrial enzymes (2009), J. Appl. Microbiol., 106, 703-727.
    View publication on PubMed

Activating Compound

EC Number Activating Compound Comment Organism Structure
3.5.5.1 Benzonitrile
-
 Rhodococcus sp.
3.5.5.7 Benzonitrile
-
 Rhodococcus rhodochrous

Application

EC Number Application Comment Organism
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Rhodococcus rhodochrous
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Arthrobacter sp.
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Rhodococcus sp.
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Fusarium solani
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Aspergillus niger
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Aeribacillus pallidus
3.5.5.1 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Fusarium oxysporum f. sp. melonis
3.5.5.7 industry the enzyme is engineered for the commercial production of 3-hydroxyvaleric acid Acidovorax facilis
3.5.5.7 industry the high chemical specificity and frequent enantioselectivity of nitrilases makes them attractive biocatalysts for the production of fine chemicals and pharmaceutical intermediates. Nitrilases are also used in the treatment of toxic industrial effluent and cyanide remediation Rhodococcus rhodochrous

Protein Variants

EC Number Protein Variants Comment Organism
3.5.5.7 F168V/L201N the mutant shows increased activity and specificity compared to the wild type enzyme Acidovorax facilis
3.5.5.7 L201Q the mutant shows increased activity and specificity compared to the wild type enzyme Acidovorax facilis
3.5.5.7 T210G inactive Acidovorax facilis

KM Value [mM]

EC Number KM Value [mM] KM Value Maximum [mM] Substrate Comment Organism Structure
3.5.5.1 0.043
-
 phenylpropionitrile pH and temperature not specified in the publication Brassica napus

Molecular Weight [Da]

EC Number Molecular Weight [Da] Molecular Weight Maximum [Da] Comment Organism
3.5.5.1 30000
-
-
 Arthrobacter sp.
3.5.5.1 34500
-
 10 * 34500 Bradyrhizobium japonicum
3.5.5.1 37000
-
 14 * 37000 Fusarium oxysporum f. sp. melonis
3.5.5.1 38000
-
 10 * 38000 or 11 * 38000 Brassica napus
3.5.5.1 38000
-
 14 * 38000 Arabidopsis thaliana
3.5.5.1 38500
-
 10 * 38500 or 12 * 38500 Aspergillus niger
3.5.5.1 40000
-
 14 * 40000 Rhodococcus rhodochrous
3.5.5.1 40000
-
 14 * 40000 Fusarium solani
3.5.5.1 41000
-
 14 * 41000 Aeribacillus pallidus
3.5.5.1 45000
-
-
 Rhodococcus rhodochrous
3.5.5.1 45000
-
 12 * 45000 Rhodococcus sp.
3.5.5.1 45800
-
 12 * 45800 Rhodococcus sp.
3.5.5.1 76000
-
 8 * 76000 Fusarium solani
3.5.5.1 340000
-
-
 Bradyrhizobium japonicum
3.5.5.1 420000
-
-
 Brassica napus
3.5.5.1 450000
-
-
 Arabidopsis thaliana
3.5.5.1 550000
-
-
 Fusarium oxysporum f. sp. melonis
3.5.5.1 560000
-
-
 Rhodococcus rhodochrous
3.5.5.1 560000
-
-
 Rhodococcus sp.
3.5.5.1 580000
-
-
 Fusarium solani
3.5.5.1 600000
-
-
 Aeribacillus pallidus
3.5.5.1 620000
-
-
 Fusarium solani
3.5.5.1 650000
-
 above 650000 Da Aspergillus niger
3.5.5.5 32000
-
 14 * 32000 Alcaligenes faecalis
3.5.5.5 460000
-
-
 Alcaligenes faecalis
3.5.5.6 37000
-
 2 * 37000 or 2 * 38100 Klebsiella pneumoniae subsp. ozaenae
3.5.5.6 38100
-
 2 * 37000 or 2 * 38100 Klebsiella pneumoniae subsp. ozaenae
3.5.5.6 74000
-
-
 Klebsiella pneumoniae subsp. ozaenae
3.5.5.7 29800
-
 2 * 29800 Pyrococcus abyssi
3.5.5.7 38000
-
 x * 38000 Comamonas testosteroni
3.5.5.7 40000
-
 10 * 40000 Synechocystis sp.
3.5.5.7 40000
-
 14 * 40000 Acidovorax facilis
3.5.5.7 40000
-
 x * 40000, this enzyme exists as an inactive dimer which oligomerizes to form active spirals in the presence of benzonitrile or an autolytic cleavage of the C-terminus Rhodococcus rhodochrous
3.5.5.7 41000
-
-
 Pseudomonas sp.
3.5.5.7 41000
-
 14 * 41000 or 14 * 43000 Acinetobacter sp.
3.5.5.7 41000
-
 14 * 41000 or 16 * 41000 Rhodococcus rhodochrous
3.5.5.7 43000
-
 14 * 41000 or 14 * 43000 Acinetobacter sp.
3.5.5.7 60000
-
-
 Pyrococcus abyssi
3.5.5.7 390000
-
-
 Synechocystis sp.
3.5.5.7 570000
-
-
 Acidovorax facilis
3.5.5.7 580000
-
-
 Acinetobacter sp.
3.5.5.7 650000
-
-
 Rhodococcus rhodochrous

Organism

EC Number Organism UniProt Comment Textmining
3.5.5.1 Aeribacillus pallidus Q0PIV8
-
-
3.5.5.1 Aeribacillus pallidus Dac521 Q0PIV8
-
-
3.5.5.1 Arabidopsis thaliana P32961
-
-
3.5.5.1 Arthrobacter sp.
-
 strain J1
-
3.5.5.1 Aspergillus niger A9QXE0
-
-
3.5.5.1 Aspergillus niger K10 A9QXE0
-
-
3.5.5.1 Bradyrhizobium japonicum
-
-
-
3.5.5.1 Bradyrhizobium japonicum USDA 110
-
-
-
3.5.5.1 Brassica napus
-
-
-
3.5.5.1 Fusarium oxysporum f. sp. melonis
-
-
-
3.5.5.1 Fusarium solani
-
-
-
3.5.5.1 Fusarium solani IMI 196840
-
-
-
3.5.5.1 Fusarium solani O1
-
-
-
3.5.5.1 Rhodococcus rhodochrous
-
-
-
3.5.5.1 Rhodococcus rhodochrous ATCC 39484
-
-
-
3.5.5.1 Rhodococcus rhodochrous PA-34
-
-
-
3.5.5.1 Rhodococcus sp.
-
-
-
3.5.5.1 Rhodococcus sp. NCIMB 11215
-
-
-
3.5.5.1 Rhodococcus sp. NCIMB 11216
-
-
-
3.5.5.5 Alcaligenes faecalis
-
-
-
3.5.5.5 Alcaligenes faecalis ATCC 8750
-
-
-
3.5.5.6 Klebsiella pneumoniae subsp. ozaenae
-
-
-
3.5.5.7 Acidovorax facilis
-
-
-
3.5.5.7 Acidovorax facilis 72W
-
-
-
3.5.5.7 Acinetobacter sp.
-
-
-
3.5.5.7 Acinetobacter sp. AK226
-
-
-
3.5.5.7 Comamonas testosteroni Q59329
-
-
3.5.5.7 Pseudomonas sp.
-
-
-
3.5.5.7 Pseudomonas sp. S1
-
-
-
3.5.5.7 Pyrococcus abyssi
-
-
-
3.5.5.7 Rhodococcus rhodochrous Q02068
-
-
3.5.5.7 Rhodococcus rhodochrous Q03217
-
-
3.5.5.7 Rhodococcus rhodochrous J1 Q03217
-
-
3.5.5.7 Rhodococcus rhodochrous K22 Q02068
-
-
3.5.5.7 Synechocystis sp. Q55949
-
-

Substrates and Products (Substrate)

EC Number Substrates Comment Substrates Organism Products Comment (Products) Rev. Reac.
3.5.5.1 2-furanocarbonnitrile + H2O 171% activity compared to benzonitrile Rhodococcus rhodochrous 2-furanocarboxylic acid + NH3
-
 ?
3.5.5.1 2-furanocarbonnitrile + H2O 171% activity compared to benzonitrile Rhodococcus rhodochrous ATCC 39484 2-furanocarboxylic acid + NH3
-
 ?
3.5.5.1 2-furanocarbonnitrile + H2O 171% activity compared to benzonitrile Rhodococcus rhodochrous PA-34 2-furanocarboxylic acid + NH3
-
 ?
3.5.5.1 3-nitrobenzonitrile + H2O 174.8% activity compared to benzonitrile Rhodococcus sp. 3-nitrobenzoic acid + NH3
-
 ?
3.5.5.1 3-nitrobenzonitrile + H2O 841.7% activity compared to benzonitrile Rhodococcus sp. 3-nitrobenzoic acid + NH3
-
 ?
3.5.5.1 3-nitrobenzonitrile + H2O 174.8% activity compared to benzonitrile Rhodococcus sp. NCIMB 11216 3-nitrobenzoic acid + NH3
-
 ?
3.5.5.1 3-nitrobenzonitrile + H2O 841.7% activity compared to benzonitrile Rhodococcus sp. NCIMB 11216 3-nitrobenzoic acid + NH3
-
 ?
3.5.5.1 3-nitrobenzonitrile + H2O 174.8% activity compared to benzonitrile Rhodococcus sp. NCIMB 11215 3-nitrobenzoic acid + NH3
-
 ?
3.5.5.1 3-nitrobenzonitrile + H2O 841.7% activity compared to benzonitrile Rhodococcus sp. NCIMB 11215 3-nitrobenzoic acid + NH3
-
 ?
3.5.5.1 3-phenylpropionitrile + H2O the enzyme has 270times more activity with 3-phenylpropionitrile than that observed with benzonitrile Arabidopsis thaliana 3-phenylpropionic acid + NH3
-
 ?
3.5.5.1 4-cyanopyridine + 2 H2O 130% activity compared to benzonitrile Fusarium solani 4-pyridinecarboxylic acid + NH3
-
 ?
3.5.5.1 4-cyanopyridine + 2 H2O 130% activity compared to benzonitrile Fusarium solani IMI 196840 4-pyridinecarboxylic acid + NH3
-
 ?
3.5.5.1 4-cyanopyridine + 2 H2O 130% activity compared to benzonitrile Fusarium solani O1 4-pyridinecarboxylic acid + NH3
-
 ?
3.5.5.1 4-cyanopyridine + H2O 410.7% activity compared to benzonitrile Aspergillus niger pyridine 4-carboxylic acid + NH3
-
 ?
3.5.5.1 4-cyanopyridine + H2O 410.7% activity compared to benzonitrile Aspergillus niger K10 pyridine 4-carboxylic acid + NH3
-
 ?
3.5.5.1 4-tolunitrile + H2O 125% activity compared to benzonitrile Arthrobacter sp. 4-methylbenzoic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 22.4% activity compared to benzonitrile Rhodococcus rhodochrous acrylic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 35% activity compared to benzonitrile Fusarium oxysporum f. sp. melonis acrylic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 6.6% activity compared to benzonitrile Fusarium solani acrylic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 6.6% activity compared to benzonitrile Fusarium solani IMI 196840 acrylic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 6.6% activity compared to benzonitrile Fusarium solani O1 acrylic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 22.4% activity compared to benzonitrile Rhodococcus rhodochrous ATCC 39484 acrylic acid + NH3
-
 ?
3.5.5.1 acrylonitrile + H2O 22.4% activity compared to benzonitrile Rhodococcus rhodochrous PA-34 acrylic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O
-
 Bradyrhizobium japonicum benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O
-
 Arabidopsis thaliana benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Rhodococcus rhodochrous benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Arthrobacter sp. benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Rhodococcus sp. benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Fusarium solani benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Aspergillus niger benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Aeribacillus pallidus benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Fusarium oxysporum f. sp. melonis benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O
-
 Bradyrhizobium japonicum USDA 110 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Rhodococcus sp. NCIMB 11216 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Fusarium solani IMI 196840 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Fusarium solani O1 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Aeribacillus pallidus Dac521 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Rhodococcus rhodochrous ATCC 39484 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Aspergillus niger K10 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Rhodococcus sp. NCIMB 11215 benzoic acid + NH3
-
 ?
3.5.5.1 benzonitrile + 2 H2O 100% activity Rhodococcus rhodochrous PA-34 benzoic acid + NH3
-
 ?
3.5.5.1 crotonitrile + H2O 80.3% activity compared to benzonitrile Aeribacillus pallidus crotonic acid + NH3
-
 ?
3.5.5.1 crotonitrile + H2O 80.3% activity compared to benzonitrile Aeribacillus pallidus Dac521 crotonic acid + NH3
-
 ?
3.5.5.1 hydrocinnamonitrile + H2O the enzyme has 431times more activity with hydrocinnamonitrile than that observed with benzonitrile Bradyrhizobium japonicum hydrocinnamic acid + NH3
-
 ?
3.5.5.1 hydrocinnamonitrile + H2O the enzyme has 431times more activity with hydrocinnamonitrile than that observed with benzonitrile Bradyrhizobium japonicum USDA 110 hydrocinnamic acid + NH3
-
 ?
3.5.5.1 phenylpropionitrile + 2 H2O
-
 Brassica napus phenylpropionic acid + NH3
-
 ?
3.5.5.1 propionitrile + H2O
-
 Rhodococcus sp. propionic acid + NH3
-
 ?
3.5.5.1 propionitrile + H2O
-
 Rhodococcus sp. NCIMB 11216 propionic acid + NH3
-
 ?
3.5.5.1 propionitrile + H2O
-
 Rhodococcus sp. NCIMB 11215 propionic acid + NH3
-
 ?
3.5.5.5 (R,S)-mandelonitrile + 2 H2O
-
 Alcaligenes faecalis (R)-(-)mandelic acid + NH3
-
 ?
3.5.5.5 (R,S)-mandelonitrile + 2 H2O
-
 Alcaligenes faecalis ATCC 8750 (R)-(-)mandelic acid + NH3
-
 ?
3.5.5.5 4-aminobenzylcyanide + H2O high activity Alcaligenes faecalis 4-aminophenylacetic acid + NH3
-
 ?
3.5.5.5 4-aminobenzylcyanide + H2O high activity Alcaligenes faecalis ATCC 8750 4-aminophenylacetic acid + NH3
-
 ?
3.5.5.5 benzonitrile + 2 H2O low activity Alcaligenes faecalis benzoic acid + NH3
-
 ?
3.5.5.5 benzonitrile + 2 H2O low activity Alcaligenes faecalis ATCC 8750 benzoic acid + NH3
-
 ?
3.5.5.6 3,5-dibromo-4-hydroxybenzonitrile + H2O i.e. bromoxynil, the enzyme is highly specific for this substrate Klebsiella pneumoniae subsp. ozaenae 3,5-dibromo-4-hydroxybenzoic acid + NH3
-
 ?
3.5.5.6 4-hydroxybenzonitrile + H2O low activity Klebsiella pneumoniae subsp. ozaenae 4-hydroxybenzoic acid + NH3
-
 ?
3.5.5.7 3-cyanopyridine + 2 H2O
-
 Rhodococcus rhodochrous nicotinic acid + NH3
-
 ?
3.5.5.7 3-cyanopyridine + 2 H2O
-
 Rhodococcus rhodochrous J1 nicotinic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O 100% activity Pseudomonas sp. acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O 128% activity compared to benzonitrile Rhodococcus rhodochrous acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O 144% activity compared to racemic Ibu-CN Acinetobacter sp. acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O the enzyme shows higher activity with acrylonitrile as with benzonitrile Rhodococcus rhodochrous acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O 100% activity Pseudomonas sp. S1 acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O 144% activity compared to racemic Ibu-CN Acinetobacter sp. AK226 acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O the enzyme shows higher activity with acrylonitrile as with benzonitrile Rhodococcus rhodochrous K22 acrylic acid + NH3
-
 ?
3.5.5.7 acrylonitrile + H2O 128% activity compared to benzonitrile Rhodococcus rhodochrous J1 acrylic acid + NH3
-
 ?
3.5.5.7 adiponitrile + H2O 100% activity Comamonas testosteroni adipic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O
-
 Rhodococcus rhodochrous benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 100% activity Rhodococcus rhodochrous benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 100% activity Synechocystis sp. benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 3.8% activity compared to acrylonitrile Pseudomonas sp. benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 4% activity compared to adiponitrile Comamonas testosteroni benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 4.6% activity compared to fumaronitrile Acidovorax facilis benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 94% activity compared to racemic Ibu-CN Acinetobacter sp. benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 3.8% activity compared to acrylonitrile Pseudomonas sp. S1 benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 94% activity compared to racemic Ibu-CN Acinetobacter sp. AK226 benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O
-
 Rhodococcus rhodochrous K22 benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 4.6% activity compared to fumaronitrile Acidovorax facilis 72W benzoic acid + NH3
-
 ?
3.5.5.7 benzonitrile + 2 H2O 100% activity Rhodococcus rhodochrous J1 benzoic acid + NH3
-
 ?
3.5.5.7 fumaronitrile + H2O 100% activity Acidovorax facilis fumaric acid + NH3
-
 ?
3.5.5.7 fumaronitrile + H2O 12000% activity compared to benzonitrile Synechocystis sp. fumaric acid + NH3
-
 ?
3.5.5.7 fumaronitrile + H2O 100% activity Acidovorax facilis 72W fumaric acid + NH3
-
 ?
3.5.5.7 malonitrile + H2O
-
 Pyrococcus abyssi malonic acid + NH3
-
 ?
3.5.5.7 racemic Ibu-CN + 2 H2O 100% activity Acinetobacter sp. ibuprofen + NH3
-
 ?
3.5.5.7 racemic Ibu-CN + 2 H2O 100% activity Acinetobacter sp. AK226 ibuprofen + NH3
-
 ?

Subunits

EC Number Subunits Comment Organism
3.5.5.1 homodecamer 10 * 34500 Bradyrhizobium japonicum
3.5.5.1 homodecamer or homododecamer 10 * 38500 or 12 * 38500 Aspergillus niger
3.5.5.1 homodecamer or homoundecamer 10 * 38000 or 11 * 38000 Brassica napus
3.5.5.1 homododecamer 12 * 45000 Rhodococcus sp.
3.5.5.1 homododecamer 12 * 45800 Rhodococcus sp.
3.5.5.1 homododecamer 14 * 38000 Arabidopsis thaliana
3.5.5.1 homooctamer 8 * 76000 Fusarium solani
3.5.5.1 homotetradecamer 14 * 37000 Fusarium oxysporum f. sp. melonis
3.5.5.1 homotetradecamer 14 * 40000 Rhodococcus rhodochrous
3.5.5.1 homotetradecamer 14 * 40000 Fusarium solani
3.5.5.1 homotetradecamer 14 * 41000 Aeribacillus pallidus
3.5.5.1 monomer 1 * 30000 Arthrobacter sp.
3.5.5.1 monomer 1 * 45000 Rhodococcus rhodochrous
3.5.5.5 homotetradecamer 14 * 32000 Alcaligenes faecalis
3.5.5.6 homodimer 2 * 37000 or 2 * 38100 Klebsiella pneumoniae subsp. ozaenae
3.5.5.7 ? x * 38000 Comamonas testosteroni
3.5.5.7 ? x * 40000, this enzyme exists as an inactive dimer which oligomerizes to form active spirals in the presence of benzonitrile or an autolytic cleavage of the C-terminus Rhodococcus rhodochrous
3.5.5.7 homodecamer 10 * 40000 Synechocystis sp.
3.5.5.7 homodimer 2 * 29800 Pyrococcus abyssi
3.5.5.7 homotetradecamer 14 * 40000 Acidovorax facilis
3.5.5.7 homotetradecamer 14 * 41000 or 14 * 43000 Acinetobacter sp.
3.5.5.7 homotetradecamer or homohexacecamer 14 * 41000 or 16 * 41000 Rhodococcus rhodochrous
3.5.5.7 monomer 1 * 41000 Pseudomonas sp.

Synonyms

EC Number Synonyms Comment Organism
3.5.5.1 NIT1
-
 Arabidopsis thaliana
3.5.5.6 bromoxynil-specific nitrilase
-
 Klebsiella pneumoniae subsp. ozaenae

Temperature Optimum [°C]

EC Number Temperature Optimum [°C] Temperature Optimum Maximum [°C] Comment Organism
3.5.5.1 30
-
-
 Rhodococcus sp.
3.5.5.1 35
-
-
 Rhodococcus rhodochrous
3.5.5.1 35
-
-
 Brassica napus
3.5.5.1 35
-
-
 Arabidopsis thaliana
3.5.5.1 40 45
-
 Fusarium solani
3.5.5.1 40
-
-
 Rhodococcus rhodochrous
3.5.5.1 40
-
-
 Arthrobacter sp.
3.5.5.1 40
-
-
 Fusarium oxysporum f. sp. melonis
3.5.5.1 45
-
-
 Bradyrhizobium japonicum
3.5.5.1 45
-
-
 Aspergillus niger
3.5.5.1 65
-
-
 Aeribacillus pallidus
3.5.5.5 45
-
-
 Alcaligenes faecalis
3.5.5.6 35
-
-
 Klebsiella pneumoniae subsp. ozaenae
3.5.5.7 30
-
-
 Comamonas testosteroni
3.5.5.7 45
-
-
 Rhodococcus rhodochrous
3.5.5.7 50
-
-
 Acinetobacter sp.
3.5.5.7 50
-
-
 Synechocystis sp.
3.5.5.7 50
-
-
 Rhodococcus rhodochrous
3.5.5.7 65
-
-
 Acidovorax facilis
3.5.5.7 100
-
-
 Pyrococcus abyssi

pH Optimum

EC Number pH Optimum Minimum pH Optimum Maximum Comment Organism
3.5.5.1 6 11
-
 Fusarium oxysporum f. sp. melonis
3.5.5.1 7 8
-
 Bradyrhizobium japonicum
3.5.5.1 7 9.5
-
 Rhodococcus sp.
3.5.5.1 7.5
-
-
 Rhodococcus rhodochrous
3.5.5.1 7.6
-
-
 Aeribacillus pallidus
3.5.5.1 7.8 9.1
-
 Fusarium solani
3.5.5.1 8
-
-
 Rhodococcus sp.
3.5.5.1 8
-
-
 Fusarium solani
3.5.5.1 8
-
-
 Aspergillus niger
3.5.5.1 8.5
-
-
 Arthrobacter sp.
3.5.5.1 9
-
-
 Brassica napus
3.5.5.1 9
-
-
 Arabidopsis thaliana
3.5.5.5 7.5
-
-
 Alcaligenes faecalis
3.5.5.6 9.2
-
-
 Klebsiella pneumoniae subsp. ozaenae
3.5.5.7 5.5
-
-
 Rhodococcus rhodochrous
3.5.5.7 7
-
-
 Synechocystis sp.
3.5.5.7 7
-
-
 Comamonas testosteroni
3.5.5.7 7.4
-
-
 Pyrococcus abyssi
3.5.5.7 7.6
-
-
 Rhodococcus rhodochrous
3.5.5.7 8
-
-
 Acinetobacter sp.
3.5.5.7 8 9
-
 Acidovorax facilis