3.1.1.20: tannase
This is an abbreviated version!
For detailed information about tannase, go to the full flat file.
Word Map on EC 3.1.1.20
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3.1.1.20
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gallic
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tannic
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aspergillus
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niger
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gallate
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plantarum
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submerged
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solid-state
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food industry
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catechin
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pectinase
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biotechnology
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tannery
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gallotannins
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galloylated
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hydrolysable
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paecilomyces
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feruloyl
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tannin-rich
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1-propanol
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depside
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emblica
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pentosus
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synthesis
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variotii
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degradation
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industry
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medicine
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agriculture
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brewing
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nutrition
- 3.1.1.20
-
gallic
-
tannic
- aspergillus
- niger
- gallate
- plantarum
-
submerged
-
solid-state
- food industry
- catechin
- pectinase
- biotechnology
-
tannery
- gallotannins
-
galloylated
-
hydrolysable
-
paecilomyces
-
feruloyl
-
tannin-rich
- 1-propanol
-
depside
- emblica
- pentosus
- synthesis
- variotii
- degradation
- industry
- medicine
- agriculture
- brewing
- nutrition
Reaction
Synonyms
An04g04430, AoTanA, AotanB, ATAN1, depsidase, fungal tannase, gallotannin-degrading esterase, GALLO_1609, LP-tan, plant tannase, TAH, TAH I, TAH II, tan A, Tan410, tan7, TanA, TanB, tanBLP, TanLpl, tannase, tannase I, tannase II, tannin acyl hydrolase, tannin acyl-hydrolase, tannin acylhydrolase, tannin-acyl-hydrolase, TanSg1, yeast tannase
ECTree
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Molecular Weight
Molecular Weight on EC 3.1.1.20 - tannase
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100000
102000
105000
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x * 105000, enzyme produced under submerged fermentation, SDS-PAGE
150000
155000
158000
163000
180000
186000
230000
290000
-
strain AO1, glycoprotein containing 22.7% sugars, a hetero-octamer with four pairs of two subunits, sedimentation equilibrium
30000
302000
31000
310000
320000
33000
34000
-
x * 100000, SDS-PAGE, x * 31000 + x * 34000, SDS-PAGE after treatment with N-glycosidase F, x * 90000, mass spectrometry
37800
40000
-
x * 40000, isozyme TAH I, SDS-PAGE, x * 46000, isozyme TAH II, SDS-PAGE
45000
46000
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x * 40000, isozyme TAH I, SDS-PAGE, x * 46000, isozyme TAH II, SDS-PAGE
50000
50700
50777
1 or 2 * 50777, the tannase exists as both a dimer and a monomer in solution, calculated from amino acid sequence
52000
55000
75000
80000
4 * 80000, denatured endogenous and recombinant tannases, SDS-PAGE. 4 * 55000, deglycosylated endogenous and recombinant tannases, SDS-PAGE
83000
90000
100000
-
x * 100000, SDS-PAGE, x * 31000 + x * 34000, SDS-PAGE after treatment with N-glycosidase F, x * 90000, mass spectrometry
102000
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x * 102000, enzyme produced under solid-state fermentation, SDS-PAGE
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x * 30000 + x * 33000, four pairs of two subunits form a hetero-oligomer of a about 300000 Da native tannase, SDS-PAGE
30000
1 * 33000 + 1 * 30000, purified tannase digested with N-glycosidase F and loaded with 2-mercaptoethanol, SDS-PAGE
31000
-
x * 100000, SDS-PAGE, x * 31000 + x * 34000, SDS-PAGE after treatment with N-glycosidase F, x * 90000, mass spectrometry
310000
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strain AO1, glycoprotein containing 22.7% sugars, a hetero-octamer with four pairs of two subunits, gel filtration
native endogenous and recombinant tannases, gel filtration
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x * 30000 + x * 33000, four pairs of two subunits form a hetero-oligomer of a about 300000 Da native tannase, SDS-PAGE
33000
1 * 33000 + 1 * 30000, purified tannase digested with N-glycosidase F and loaded with 2-mercaptoethanol, SDS-PAGE
55000
4 * 80000, denatured endogenous and recombinant tannases, SDS-PAGE. 4 * 55000, deglycosylated endogenous and recombinant tannases, SDS-PAGE
90000
-
x * 100000, SDS-PAGE, x * 31000 + x * 34000, SDS-PAGE after treatment with N-glycosidase F, x * 90000, mass spectrometry