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Literature summary for 3.1.1.20 extracted from

  • Jana, A.; Halder, S.K.; Banerjee, A.; Paul, T.; Pati, B.R.; Mondal, K.C.; Das Mohapatra, P.K.
    Biosynthesis, structural architecture and biotechnological potential of bacterial tannase: a molecular advancement (2014), Biores. Technol., 157, 327-340.
    View publication on PubMed
Search for more literature for 3.1.1.20

Activating Compound

Activating Compound Comment Organism Structure
EDTA
-
 Lactiplantibacillus plantarum
SDS 1% (v/v) SDS shows stimulatory (13.2%) effect on tannase activity Bacillus subtilis

Inhibitors

Inhibitors Comment Organism Structure
2-mercaptoethanol
-
 Bacillus subtilis
2-mercaptoethanol
-
 Lactiplantibacillus plantarum
Ag+
-
 Bacillus subtilis
Al3+
-
 Escherichia coli
Ba2+
-
 Bacillus subtilis
Ba2+
-
 Enterobacter cloacae
Ca2+
-
 Bacillus subtilis
Co2+
-
 Bacillus subtilis
Co2+
-
 Rhodococcus sp.
Cu2+
-
 Bacillus subtilis
Cu2+
-
 Enterobacter cloacae
Cu2+
-
 Escherichia coli
Cu2+
-
 Rhodococcus sp.
DMSO most potent inhibitor Bacillus subtilis
DMSO
-
 Lactiplantibacillus plantarum
EDTA
-
 Escherichia coli
Fe2+
-
 Bacillus subtilis
Fe2+
-
 Enterobacter cloacae
Fe3+
-
 Bacillus subtilis
Fe3+
-
 Escherichia coli
Fe3+
-
 Rhodococcus sp.
Hg2+
-
 Bacillus subtilis
Hg2+
-
 Lactiplantibacillus plantarum
Hg2+
-
 Rhodococcus sp.
K+
-
 Bacillus subtilis
methyl gallate
-
 Bacillus subtilis
methyl gallate
-
 Enterobacter cloacae
Mg2+
-
 Lactiplantibacillus plantarum
propyl gallate
-
 Bacillus subtilis
propyl gallate
-
 Enterobacter cloacae
pyrogallol
-
 Bacillus subtilis
pyrogallol
-
 Enterobacter cloacae
SDS
-
 Enterobacter cloacae
Sodium azide
-
 Bacillus subtilis
Sodium azide
-
 Enterobacter cloacae
Sodium thioglycolate
-
 Bacillus subtilis
Sodium thioglycolate
-
 Enterobacter cloacae
Triton X-100
-
 Bacillus subtilis
Triton X-100
-
 Enterobacter cloacae
Triton X-100
-
 Lactiplantibacillus plantarum
Tween 20
-
 Enterobacter cloacae
Tween 60
-
 Bacillus subtilis
Tween 80
-
 Bacillus subtilis
Tween 80
-
 Enterobacter cloacae
Tween 80
-
 Lactiplantibacillus plantarum
Urea
-
 Lactiplantibacillus plantarum
Zn2+
-
 Bacillus subtilis
Zn2+
-
 Escherichia coli
Zn2+
-
 Lactiplantibacillus plantarum

KM Value [mM]

KM Value [mM] KM Value Maximum [mM] Substrate Comment Organism Structure
0.00337
-
 Tannic acid pH and temperature not specified in the publication Enterobacter cloacae
0.445
-
 Tannic acid pH and temperature not specified in the publication Bacillus subtilis
1.6
-
 methyl gallate pH and temperature not specified in the publication Selenomonas ruminantium
3.7
-
 methyl gallate pH and temperature not specified in the publication Enterobacter sp.

Metals/Ions

Metals/Ions Comment Organism Structure
Ca2+
-
 Lactiplantibacillus plantarum
K+
-
 Lactiplantibacillus plantarum
Mg2+ Mg2+ is the most common requirement for optimum activity Bacillus subtilis
Mg2+ Mg2+ is the most common requirement for optimum activity Escherichia coli
Mg2+ Mg2+ is the most common requirement for optimum activity Enterobacter cloacae
Mg2+ Mg2+ is the most common requirement for optimum activity Lysinibacillus sphaericus
Mg2+ Mg2+ is the most common requirement for optimum activity Bacillus cereus
Mg2+ Mg2+ is the most common requirement for optimum activity Klebsiella pneumoniae
Mg2+ Mg2+ is the most common requirement for optimum activity Selenomonas ruminantium
Mg2+ Mg2+ is the most common requirement for optimum activity Rhodococcus sp.
Mg2+ Mg2+ is the most common requirement for optimum activity Enterobacter sp.
Mg2+ Mg2+ is the most common requirement for optimum activity Serratia ficaria
Mn2+
-
 Escherichia coli
Mn2+
-
 Enterobacter cloacae
NH4+
-
 Escherichia coli
Ni2+
-
 Escherichia coli
Zn2+
-
 Enterobacter cloacae

Molecular Weight [Da]

Molecular Weight [Da] Molecular Weight Maximum [Da] Comment Organism
31000
-
 x * 31000, SDS-PAGE Enterobacter cloacae
46500
-
 x * 46500, SDS-PAGE Klebsiella pneumoniae
50700
-
 x * 50700, SDS-PAGE Lactiplantibacillus plantarum
52000
-
 x * 52000 Bacillus subtilis
55000
-
 x * 55000, SDS-PAGE Escherichia coli
59000
-
 x * 59000, SDS-PAGE Selenomonas ruminantium
60000
-
 x * 60000, SDS-PAGE Rhodococcus sp.
90000
-
 x * 90000, SDS-PAGE Enterobacter sp.

Natural Substrates/ Products (Substrates)

Natural Substrates Organism Comment (Nat. Sub.) Natural Products Comment (Nat. Pro.) Rev. Reac.
tannic acid + H2O Lactiplantibacillus plantarum
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Bacillus subtilis
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Escherichia coli
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Enterobacter cloacae
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Lysinibacillus sphaericus
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Bacillus cereus
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Klebsiella pneumoniae
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Selenomonas ruminantium
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Rhodococcus sp.
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Enterobacter sp.
-
 gallate + D-glucose
-
 ?
tannic acid + H2O Serratia ficaria
-
 gallate + D-glucose
-
 ?

Organic Solvent Stability

Organic Solvent Comment Organism
Ethanol the activity of tannase increases in presence of ethanol Bacillus subtilis
Glycerol the activity of tannase increases in presence of glycerol Bacillus subtilis
isoamyl alcohol the activity of tannase increases in presence of isoamyl alcohol Bacillus subtilis
isopropanol the activity of tannase increases in presence of isopropanol Bacillus subtilis
Methanol the activity of tannase increases in presence of methanol Bacillus subtilis

Organism

Organism UniProt Comment Textmining
Bacillus cereus
-
-
-
Bacillus subtilis
-
-
-
Enterobacter cloacae
-
-
-
Enterobacter sp.
-
-
-
Escherichia coli
-
-
-
Klebsiella pneumoniae
-
-
-
Lactiplantibacillus plantarum
-
-
-
Lysinibacillus sphaericus
-
-
-
Rhodococcus sp.
-
-
-
Selenomonas ruminantium
-
-
-
Serratia ficaria
-
-
-

Purification (Commentary)

Purification (Comment) Organism
ammonium sulfate precipitation followed by Sephadex G-75 gel filtration Bacillus subtilis
ammonium sulfate precipitation, Q-Sepharose column chromatography, hydroxylapatite column chromatography, and MonoQ column chromatography Lactiplantibacillus plantarum
DEAE-cellulose chromatography followed by Sephadex G-100 gel filtration Enterobacter sp.

Substrates and Products (Substrate)

Substrates Comment Substrates Organism Products Comment (Products) Rev. Reac.
methyl gallate + H2O
-
 Lactiplantibacillus plantarum gallate + methanol
-
 ?
methyl gallate + H2O
-
 Bacillus subtilis gallate + methanol
-
 ?
methyl gallate + H2O
-
 Escherichia coli gallate + methanol
-
 ?
methyl gallate + H2O
-
 Enterobacter cloacae gallate + methanol
-
 ?
methyl gallate + H2O
-
 Lysinibacillus sphaericus gallate + methanol
-
 ?
methyl gallate + H2O
-
 Bacillus cereus gallate + methanol
-
 ?
methyl gallate + H2O
-
 Klebsiella pneumoniae gallate + methanol
-
 ?
methyl gallate + H2O
-
 Selenomonas ruminantium gallate + methanol
-
 ?
methyl gallate + H2O
-
 Rhodococcus sp. gallate + methanol
-
 ?
methyl gallate + H2O
-
 Enterobacter sp. gallate + methanol
-
 ?
methyl gallate + H2O
-
 Serratia ficaria gallate + methanol
-
 ?
tannic acid + H2O
-
 Lactiplantibacillus plantarum gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Bacillus subtilis gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Escherichia coli gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Enterobacter cloacae gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Lysinibacillus sphaericus gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Bacillus cereus gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Klebsiella pneumoniae gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Selenomonas ruminantium gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Rhodococcus sp. gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Enterobacter sp. gallate + D-glucose
-
 ?
tannic acid + H2O
-
 Serratia ficaria gallate + D-glucose
-
 ?

Subunits

Subunits Comment Organism
? x * 90000, SDS-PAGE Enterobacter sp.
? x * 60000, SDS-PAGE Rhodococcus sp.
? x * 55000, SDS-PAGE Escherichia coli
? x * 59000, SDS-PAGE Selenomonas ruminantium
? x * 31000, SDS-PAGE Enterobacter cloacae
? x * 46500, SDS-PAGE Klebsiella pneumoniae
? x * 52000 Bacillus subtilis
? x * 50700, SDS-PAGE Lactiplantibacillus plantarum

Synonyms

Synonyms Comment Organism
tannin acyl hydrolase
-
 Lactiplantibacillus plantarum
tannin acyl hydrolase
-
 Bacillus subtilis
tannin acyl hydrolase
-
 Escherichia coli
tannin acyl hydrolase
-
 Enterobacter cloacae
tannin acyl hydrolase
-
 Lysinibacillus sphaericus
tannin acyl hydrolase
-
 Bacillus cereus
tannin acyl hydrolase
-
 Klebsiella pneumoniae
tannin acyl hydrolase
-
 Selenomonas ruminantium
tannin acyl hydrolase
-
 Rhodococcus sp.
tannin acyl hydrolase
-
 Enterobacter sp.
tannin acyl hydrolase
-
 Serratia ficaria

Temperature Optimum [°C]

Temperature Optimum [°C] Temperature Optimum Maximum [°C] Comment Organism
30
-
-
 Rhodococcus sp.
30 40
-
 Lactiplantibacillus plantarum
30 40
-
 Selenomonas ruminantium
35
-
-
 Escherichia coli
35
-
-
 Serratia ficaria
40
-
-
 Bacillus subtilis
40
-
-
 Bacillus cereus
40
-
-
 Klebsiella pneumoniae
40
-
-
 Enterobacter sp.
50
-
-
 Enterobacter cloacae
50
-
-
 Lysinibacillus sphaericus

Temperature Stability [°C]

Temperature Stability Minimum [°C] Temperature Stability Maximum [°C] Comment Organism
25 45
-
 Escherichia coli
30 70
-
 Bacillus subtilis
30 80
-
 Lysinibacillus sphaericus

pH Optimum

pH Optimum Minimum pH Optimum Maximum Comment Organism
4.5
-
-
 Bacillus cereus
5
-
-
 Bacillus subtilis
5
-
-
 Lysinibacillus sphaericus
5 8
-
 Lactiplantibacillus plantarum
5.5
-
-
 Enterobacter cloacae
5.5
-
-
 Klebsiella pneumoniae
5.5
-
-
 Enterobacter sp.
6
-
-
 Rhodococcus sp.
7
-
-
 Escherichia coli
7
-
-
 Selenomonas ruminantium
8.9
-
-
 Serratia ficaria

pH Stability

pH Stability pH Stability Maximum Comment Organism
3 8
-
 Bacillus subtilis
3 8
-
 Lysinibacillus sphaericus
4.5 5
-
 Bacillus cereus
5.5 8
-
 Escherichia coli

pI Value

Organism Comment pI Value Maximum pI Value
Bacillus subtilis isoelectric focusing
-
 4.4
Selenomonas ruminantium isoelectric focusing
-
 6.58