EC Number |
Recommended Name |
Reaction Type |
Organism |
Primary Accession No. |
---|
3.5.2.5 | allantoinase |
hydrolysis |
- |
Escherichia coli |
P77671 |
3.5.2.5 | allantoinase |
hydrolysis |
- |
Pseudomonas fluorescens |
B5L363 |
3.5.2.6 | beta-lactamase |
hydrolysis |
- |
Acinetobacter sp. |
- |
3.5.2.6 | beta-lactamase |
hydrolysis |
- |
Enterobacter cloacae |
- |
3.5.2.6 | beta-lactamase |
hydrolysis |
- |
Klebsiella pneumoniae |
- |
3.5.2.6 | beta-lactamase |
hydrolysis |
- |
Pseudomonas aeruginosa |
- |
3.5.2.6 | beta-lactamase |
hydrolysis |
- |
Pseudomonas putida |
Q8GCU7 |
3.5.2.6 | beta-lactamase |
hydrolysis |
- |
Serratia marcescens |
- |
3.5.2.9 | 5-oxoprolinase (ATP-hydrolysing) |
hydrolysis |
- |
Arabidopsis thaliana |
Q9FIZ7 |
3.5.3.18 | dimethylargininase |
hydrolysis |
- |
Bos taurus |
Q3SX44 |
3.5.3.18 | dimethylargininase |
hydrolysis |
- |
Homo sapiens |
O94760, O95865 |
3.5.3.18 | dimethylargininase |
hydrolysis |
- |
Mus musculus |
Q99LD8, Q9CWS0 |
3.5.3.18 | dimethylargininase |
hydrolysis |
- |
Oryctolagus cuniculus |
- |
3.5.3.18 | dimethylargininase |
hydrolysis |
- |
Rattus norvegicus |
O08557, Q6MG60 |
3.5.4.9 | methenyltetrahydrofolate cyclohydrolase |
hydrolysis |
- |
Homo sapiens |
- |
3.5.4.9 | methenyltetrahydrofolate cyclohydrolase |
hydrolysis |
- |
Leishmania major |
- |
3.5.4.9 | methenyltetrahydrofolate cyclohydrolase |
hydrolysis |
- |
Saccharomyces cerevisiae |
P07245, P09440 |
3.5.5.5 | Arylacetonitrilase |
hydrolysis |
- |
Pseudomonas putida |
B0LAW4 |
3.5.99.7 | 1-aminocyclopropane-1-carboxylate deaminase |
hydrolysis |
- |
Pseudomonas fluorescens |
- |
3.5.99.7 | 1-aminocyclopropane-1-carboxylate deaminase |
hydrolysis |
- |
Pseudomonas putida |
- |
3.5.99.9 | 2-nitroimidazole nitrohydrolase |
hydrolysis |
- |
Mycobacterium sp. |
F4ZCI3 |
3.6.1.29 | bis(5'-adenosyl)-triphosphatase |
hydrolysis |
- |
Homo sapiens |
- |
3.6.5.1 | heterotrimeric G-protein GTPase |
hydrolysis |
- |
Homo sapiens |
- |
3.6.5.1 | heterotrimeric G-protein GTPase |
hydrolysis |
- |
Mus musculus |
- |
3.6.5.1 | heterotrimeric G-protein GTPase |
hydrolysis |
- |
Rattus norvegicus |
- |
3.6.5.1 | heterotrimeric G-protein GTPase |
hydrolysis |
- |
Saccharomyces pombe |
- |
3.6.5.3 | protein-synthesizing GTPase |
hydrolysis |
- |
Escherichia coli |
P0CE48 |
3.6.5.3 | protein-synthesizing GTPase |
hydrolysis |
- |
Saccharolobus solfataricus |
- |
3.6.5.3 | protein-synthesizing GTPase |
hydrolysis |
- |
Saccharomyces cerevisiae |
P32501 |
3.6.5.3 | protein-synthesizing GTPase |
hydrolysis |
- |
Thermus aquaticus |
Q01698 |
3.6.5.3 | protein-synthesizing GTPase |
hydrolysis |
- |
Thermus thermophilus |
P60338 |
3.8.1.5 | haloalkane dehalogenase |
hydrolysis |
- |
Alcaligenes sp. |
- |
3.8.1.8 | atrazine chlorohydrolase |
hydrolysis |
- |
Arthrobacter sp. |
- |
3.8.1.8 | atrazine chlorohydrolase |
hydrolysis |
- |
Pseudomonas sp. |
- |
4.2.99.18 | DNA-(apurinic or apyrimidinic site) lyase |
hydrolysis |
- |
Homo sapiens |
- |
4.4.1.1 | cystathionine gamma-lyase |
hydrolysis |
- |
Mus musculus |
- |
4.4.1.1 | cystathionine gamma-lyase |
hydrolysis |
- |
Rattus norvegicus |
- |
4.6.1.24 | ribonuclease T1 |
hydrolysis |
- |
Aspergillus oryzae |
- |
5.6.1.7 | chaperonin ATPase |
hydrolysis |
- |
Escherichia coli |
P0A6F5, P0A6F5 |
5.6.1.7 | chaperonin ATPase |
hydrolysis |
- |
Thermoplasma acidophilum |
- |
6.3.2.13 | UDP-N-acetylmuramoyl-L-alanyl-D-glutamate-2,6-diaminopimelate ligase |
hydrolysis |
- |
Pseudomonas aeruginosa |
- |
7.4.2.7 | ABC-type alpha-factor-pheromone transporter |
hydrolysis |
- |
Saccharomyces cerevisiae |
- |
3.1.3.32 | polynucleotide 3'-phosphatase |
hydrolysis |
although unable to dephosphorylate a 3'-PO4-terminated single strand, the enzyme is equally adept at removing the 3'-PO4 from an internal nick or gap in duplex DNA, a recessed 3' end of a 5'-tailed primer-template, or a blunt DNA duplex with no single-strand tail |
Saccharomyces cerevisiae |
- |
3.2.1.161 | beta-apiosyl-beta-glucosidase |
hydrolysis |
beta-glycosidic bond between glycogen and aglycone of disaccharide glycosides, no hydrolysis of bond of two saccharides, barely active on monosaccharide glycosides |
Viburnum furcatum |
- |
3.2.1.17 | lysozyme |
hydrolysis |
catalyzes the hydrolysis of bacterial cell walls |
Apostichopus japonicus |
- |
3.2.1.165 | exo-1,4-beta-D-glucosaminidase |
hydrolysis |
cleaving 2-amino-2-deoxy-D-glucopyranose off oligosaccharides |
Amycolatopsis orientalis |
- |
3.2.1.17 | lysozyme |
hydrolysis |
cleaving the beta-1,4 glycosidic bond between N-acetyl-D-glucosamine (NAG) and N-acetylmuramic acid (NAM) in the peptidoglycan layer |
Gadus morhua |
- |
3.2.1.123 | endoglycosylceramidase |
hydrolysis |
EGALC hydrolyzes 6-gala series glycosphingolipids to produce intact oligosaccharides and ceramides |
Rhodococcus equi |
- |
3.4.24.B12 | ADAMTS5 endopeptidase |
hydrolysis |
endoproteolytic cleavage of specific Glu-Xaa bonds within the core protein of aggrecan |
Homo sapiens |
Q9UNA0 |
3.2.1.136 | glucuronoarabinoxylan endo-1,4-beta-xylanase |
hydrolysis |
facilitating hemicellulose degradation |
Aspergillus niger |
- |
3.2.1.136 | glucuronoarabinoxylan endo-1,4-beta-xylanase |
hydrolysis |
facilitating hemicellulose degradation |
Trichoderma longibrachiatum |
- |
5.6.1.7 | chaperonin ATPase |
hydrolysis |
formation of the closed lid requires ATP hydrolysis |
Bos taurus |
- |
3.1.3.32 | polynucleotide 3'-phosphatase |
hydrolysis |
hydrolysis of a 3'-PO4 from either single-stranded polynucleotides or free 3'-mononucleotides |
Tequatrovirus T4 |
- |
3.1.1.3 | triacylglycerol lipase |
hydrolysis |
hydrolysis of glycerol ester bonds occurs non-specifically |
Amycolatopsis mediterranei |
- |
3.1.1.47 | 1-alkyl-2-acetylglycerophosphocholine esterase |
hydrolysis |
hydrolysis of the sn-2 fatty acyl, ester, bond of phospholipids |
Homo sapiens |
- |
3.2.1.153 | fructan beta-(2,1)-fructosidase |
hydrolysis |
hydrolytic cleavage of terminal fructosyl residues off inulin |
Cichorium intybus |
- |
3.2.1.153 | fructan beta-(2,1)-fructosidase |
hydrolysis |
hydrolytic cleavage of terminal fructosyl residues off inulin |
Vernonia herbacea |
A9JIF3 |
3.2.1.17 | lysozyme |
hydrolysis |
hydrolyze the beta-1,4-glycosidic linkage between N-acetylmuramic acid and N-acetylglucosamine of peptidoglycan |
Anopheles gambiae |
Q17005 |
3.5.3.12 | agmatine deiminase |
hydrolysis |
involved in agmatine deiminase system |
Streptococcus mutans |
- |
3.2.1.127 | 1,6-alpha-L-fucosidase |
hydrolysis |
lysosomal hydrolase, identified in tissues and serum, serum FUCA activity correlated with early detection in hepatocellular carcinoma |
Homo sapiens |
- |
3.2.1.17 | lysozyme |
hydrolysis |
lysozyme has a potent antimicrobial effect due to the hydrolysis of the beta-linkage between muramic acid and N-acetyl glucosamine present in the microbial walls |
Gallus gallus |
- |
3.2.1.17 | lysozyme |
hydrolysis |
lysozyme hydrolyses 1,4-beta-linkages between N-acetylmuramic acid and N-acetyl-D-glucosamine residues in a peptidoglycan |
Equus caballus |
- |
3.2.1.17 | lysozyme |
hydrolysis |
lysozyme kills bacteria by hydrolyzing beta-1,4-glycosidic linkages between N-acetylglucosamine and N-acetylmuramic acid of the peptidoglycan layer in the bacterial cell wall |
Penaeus merguiensis |
- |
3.2.1.84 | glucan 1,3-alpha-glucosidase |
hydrolysis |
of alpha-1,3-glucan, C-terminal domain with catalytic activity and low mutan-binding activity, N-terminal domain with mutan-binding activity |
Paenibacillus sp. |
E16590 |
3.2.1.51 | alpha-L-fucosidase |
hydrolysis |
of glycosidic bond |
Homo sapiens |
- |
2.3.3.16 | citrate synthase (unknown stereospecificity) |
hydrolysis |
of intermediate citryl-CoA |
Sus scrofa |
- |
2.3.3.16 | citrate synthase (unknown stereospecificity) |
hydrolysis |
of intermediate citryl-CoA |
Thermoplasma acidophilum |
- |
3.2.1.80 | fructan beta-fructosidase |
hydrolysis |
of inulin |
Papiliotrema aurea |
- |
3.2.1.135 | neopullulanase |
hydrolysis |
only enzymatic activity on alpha-1,6-glusocidic linkages of pullulan, not on alpha-1,4-glucosidic bonds |
uncultured microorganism |
A7LI67 |
3.2.1.136 | glucuronoarabinoxylan endo-1,4-beta-xylanase |
hydrolysis |
or beta-1,4-glycosidic linkages in major plant structural polysaccharides |
Cellulomonas flavigena |
A1XM14 |
5.6.1.7 | chaperonin ATPase |
hydrolysis |
proteins of size up to 70 kDA fold via cis mechanism during GroEL-ES assisted pathway, proteins of size upper 70 kDa fold via trans mechanism by GroES-binding |
Escherichia coli |
- |
3.5.1.13 | aryl-acylamidase |
hydrolysis |
rate determining step of hydrolysis of this substrate is acylation |
Homo sapiens |
- |
3.2.2.22 | rRNA N-glycosylase |
hydrolysis |
removal of adenine residue from rRNA loop |
Ricinus communis |
- |
3.2.2.22 | rRNA N-glycosylase |
hydrolysis |
removal of specific adenine of ribosomal RNA |
Ricinus communis |
- |
3.2.2.22 | rRNA N-glycosylase |
hydrolysis |
removal of specific adenine residue from eukaryotic larger rRNA subunit, inhibiting translation, N-glycosidase independent induction of apoptosis |
Saponaria officinalis |
- |
3.2.1.207 | mannosyl-oligosaccharide alpha-1,3-glucosidase |
hydrolysis |
remove second glucose residue of glycans, incubation time 10 min at 37°C |
Rattus norvegicus |
- |
3.2.2.22 | rRNA N-glycosylase |
hydrolysis |
rRNA N-glycosidase activity |
Bougainvillea x buttiana |
Q4U473 |
6.3.4.6 | urea carboxylase |
hydrolysis |
yeast enzyme |
Saccharomyces cerevisiae |
P32528 |