Literature summary for 3.1.1.20 extracted from

Li, M.; Kai, Y.; Qiang, H.; Dongying, J.
Biodegradation of gallotannins and ellagitannins (2006), J. Basic Microbiol., 46, 68-84.

Activating Compound

Activating Compound	Comment	Organism	Structure
additional information	induction and repression patterns, overview	Aspergillus niger
additional information	the enzyme is not affected by EDTA	Aspergillus sp.

Inhibitors

Inhibitors	Comment	Organism
CaCl2	noncompetitive	Aspergillus sp.
additional information	induction and repression patterns, overview	Aspergillus niger
additional information	the enzyme is not affected by EDTA	Aspergillus sp.

KM Value [mM]

KM Value [mM]	KM Value Maximum [mM]	Substrate	Comment	Organism	Structure
0.28	-	Tannic acid	-	Aspergillus sp.

Localization

Localization	Comment	Organism	GeneOntology No.	Textmining
extracellular	-	Lactiplantibacillus plantarum	-	-
extracellular	-	Bacillus licheniformis	-	-
extracellular	-	Aspergillus sp.	-	-
intracellular	intracellular tannase is tightly bound with the mycelium	Aspergillus sp.	5622	-

Molecular Weight [Da]

Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
83000	-	x * 102000 + x * 83000	Aspergillus sp.
102000	-	x * 102000 + x * 83000	Aspergillus sp.

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.
gallotannin + H2O	Lactiplantibacillus plantarum	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Aspergillus niger	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Bacillus licheniformis	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Aspergillus fischeri	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Trichoderma viride	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Fusarium solani	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Aspergillus sp.	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Penicillium sp.	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Libidibia coriaria	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Aspergillus niger Aa-20	-	gallic acid + D-glucose	-	?
gallotannin + H2O	Bacillus licheniformis KBR 6	-	gallic acid + D-glucose	-	?
additional information	Lactiplantibacillus plantarum	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Aspergillus niger	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Bacillus licheniformis	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Aspergillus fischeri	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Trichoderma viride	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Fusarium solani	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Aspergillus sp.	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Penicillium sp.	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Libidibia coriaria	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Aspergillus niger Aa-20	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
additional information	Bacillus licheniformis KBR 6	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	?	-	?
tannic acid + H2O	Bacillus licheniformis	-	gallate + ?	-	?
tannic acid + H2O	Bacillus licheniformis KBR 6	-	gallate + ?	-	?

Organism

Organism	UniProt	Comment	Textmining
Aspergillus fischeri	-	-	-
Aspergillus niger	-	-	-
Aspergillus niger Aa-20	-	-	-
Aspergillus sp.	-	-	-
Bacillus licheniformis	-	isolated from lateritic soil, inducible enzyme	-
Bacillus licheniformis KBR 6	-	isolated from lateritic soil, inducible enzyme	-
Fusarium solani	-	-	-
Lactiplantibacillus plantarum	-	inducible enzyme	-
Libidibia coriaria	-	i.e. Divi-Divi	-
Penicillium sp.	-	-	-
Trichoderma viride	-	-	-

Purification (Commentary)

Purification (Comment)	Organism
intracellular tannase partially	Aspergillus sp.

Source Tissue

Source Tissue	Comment	Organism	Textmining
leaf	-	Libidibia coriaria	-
additional information	from solid-state culture, optimal on minimal medium containing 0.2% w/v glucose and 0.7% w/v tannic acid at 37 °C and pH 6.0 in the absence of O2	Lactiplantibacillus plantarum	-
additional information	from submerged or solid-state cultures with higher enzyme activity in the latter	Aspergillus niger	-
additional information	from submerged or solid-state cultures with higher enzyme activity in the latter	Aspergillus fischeri	-
additional information	from submerged or solid-state cultures with higher enzyme activity in the latter	Trichoderma viride	-
additional information	from submerged or solid-state cultures with higher enzyme activity in the latter	Fusarium solani	-
additional information	from submerged or solid-state cultures with higher enzyme activity in the latter	Aspergillus sp.	-
additional information	from submerged or solid-state cultures with higher enzyme activity in the latter	Penicillium sp.	-
mycelium	intracellular tannase is tightly bound with the mycelium	Aspergillus sp.	-
pod	-	Libidibia coriaria	-

Specific Activity [micromol/min/mg]

Specific Activity Minimum [µmol/min/mg]	Specific Activity Maximum [µmol/min/mg]	Comment	Organism
additional information	-	paper chromatographic detection method development	Bacillus licheniformis

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.
gallotannin + H2O	-	Lactiplantibacillus plantarum	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Aspergillus niger	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Bacillus licheniformis	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Aspergillus fischeri	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Trichoderma viride	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Fusarium solani	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Aspergillus sp.	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Penicillium sp.	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Libidibia coriaria	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Lactiplantibacillus plantarum	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Aspergillus niger	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Bacillus licheniformis	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Aspergillus fischeri	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Trichoderma viride	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Fusarium solani	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Aspergillus sp.	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Penicillium sp.	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Libidibia coriaria	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Aspergillus niger Aa-20	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Aspergillus niger Aa-20	gallic acid + D-glucose	-	?
gallotannin + H2O	-	Bacillus licheniformis KBR 6	gallic acid + D-glucose	-	?
gallotannin + H2O	hydrolysis of ester and depside linkages of gallotannins via galloylglucose	Bacillus licheniformis KBR 6	gallic acid + D-glucose	-	?
methyl gallate + H2O	-	Aspergillus fischeri	methanol + gallate	-	?
methyl gallate + H2O	-	Trichoderma viride	methanol + gallate	-	?
methyl gallate + H2O	-	Fusarium solani	methanol + gallate	-	?
methyl gallate + H2O	-	Aspergillus sp.	methanol + gallate	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Lactiplantibacillus plantarum	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Aspergillus niger	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Bacillus licheniformis	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Aspergillus fischeri	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Trichoderma viride	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Fusarium solani	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Aspergillus sp.	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Penicillium sp.	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Libidibia coriaria	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Aspergillus niger Aa-20	?	-	?
additional information	the enzyme is involved in the degradation of condensed tannins, complex tannins, gallotannins, and ellagitannins produced by different plant species in almost all tissue types, e.g. bark, wood, leaf, fruit, root and seed, overview, tannin structure and physiologic effects, degradation mechanism, and pathways, detailed overview	Bacillus licheniformis KBR 6	?	-	?
propyl gallate + H2O	-	Aspergillus sp.	propanol + gallate	-	?
tannic acid + H2O	-	Bacillus licheniformis	gallate + ?	-	?
tannic acid + H2O	-	Aspergillus sp.	gallate + ?	-	?
tannic acid + H2O	-	Bacillus licheniformis KBR 6	gallate + ?	-	?

Subunits

Subunits	Comment	Organism
?	x * 102000 + x * 83000	Aspergillus sp.

Synonyms

Synonyms	Comment	Organism
depsidase	-	Libidibia coriaria
fungal tannase	-	Aspergillus niger
fungal tannase	-	Aspergillus fischeri
fungal tannase	-	Trichoderma viride
fungal tannase	-	Fusarium solani
fungal tannase	-	Aspergillus sp.
fungal tannase	-	Penicillium sp.
gallotannin-degrading esterase	-	Libidibia coriaria
plant tannase	-	Libidibia coriaria

Temperature Optimum [°C]

Temperature Optimum [°C]	Temperature Optimum Maximum [°C]	Comment	Organism
60	-	-	Bacillus licheniformis

pH Optimum

pH Optimum Minimum	pH Optimum Maximum	Comment	Organism
5.7	5.8	-	Bacillus licheniformis

Ki Value [mM]

Ki Value [mM]	Ki Value maximum [mM]	Inhibitor	Comment	Organism	Structure
0.59	-	CaCl2	-	Aspergillus sp.