Literature summary for 1.11.1.16 extracted from

Ravichandran, A.; Sridhar, M.
Insights into the mechanism of lignocellulose degradation by versatile peroxidases (2017), Curr. Sci., 113, 35-42 .

No PubMed abstract available

Search for more literature for 1.11.1.16

Application

Application	Comment	Organism
industry	the enzyme can be used in the treatment of industrial dye effluents. Paper pulp industries presently employ these ligninolytic enzymes for their pulp bleaching applications	Pleurotus ostreatus
industry	the enzyme can be used in the treatment of industrial dye effluents. Paper pulp industries presently employ these ligninolytic enzymes for their pulp bleaching applications	Bjerkandera adusta
industry	the enzyme can be used in the treatment of industrial dye effluents. Paper pulp industries presently employ these ligninolytic enzymes for their pulp bleaching applications	Pleurotus eryngii
industry	the enzyme can be used in the treatment of industrial dye effluents. Paper pulp industries presently employ these ligninolytic enzymes for their pulp bleaching applications	Bjerkandera fumosa

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
Mn2+ + H+ + H2O2	Pleurotus ostreatus	-	Mn3+ + H2O	-	?
Mn2+ + H+ + H2O2	Bjerkandera adusta	-	Mn3+ + H2O	-	?
Mn2+ + H+ + H2O2	Pleurotus eryngii	-	Mn3+ + H2O	-	?
Mn2+ + H+ + H2O2	Bjerkandera fumosa	-	Mn3+ + H2O	-	?

Organism

Organism	UniProt	Comment	Textmining
Bjerkandera adusta	-	-	-
Bjerkandera fumosa	-	-	-
Pleurotus eryngii	-	-	-
Pleurotus ostreatus	-	-	-

Posttranslational Modification

Posttranslational Modification	Comment	Organism
glycoprotein	-	Pleurotus ostreatus
glycoprotein	-	Bjerkandera adusta
glycoprotein	-	Pleurotus eryngii
glycoprotein	-	Bjerkandera fumosa

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) + H+ + H2O2	-	Pleurotus ostreatus	?	-	?
2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) + H+ + H2O2	-	Bjerkandera adusta	?	-	?
2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) + H+ + H2O2	-	Pleurotus eryngii	?	-	?
2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) + H+ + H2O2	-	Bjerkandera fumosa	?	-	?
2,6-dimethoxyphenol + H+ + H2O2	-	Pleurotus ostreatus	?	-	?
2,6-dimethoxyphenol + H+ + H2O2	-	Bjerkandera adusta	?	-	?
2,6-dimethoxyphenol + H+ + H2O2	-	Pleurotus eryngii	?	-	?
2,6-dimethoxyphenol + H+ + H2O2	-	Bjerkandera fumosa	?	-	?
Mn2+ + H+ + H2O2	-	Pleurotus ostreatus	Mn3+ + H2O	-	?
Mn2+ + H+ + H2O2	-	Bjerkandera adusta	Mn3+ + H2O	-	?
Mn2+ + H+ + H2O2	-	Pleurotus eryngii	Mn3+ + H2O	-	?
Mn2+ + H+ + H2O2	-	Bjerkandera fumosa	Mn3+ + H2O	-	?
Reactive Black 5 + H+ + H2O2	-	Pleurotus ostreatus	?	-	?
Reactive Black 5 + H+ + H2O2	-	Bjerkandera adusta	?	-	?
Reactive Black 5 + H+ + H2O2	-	Pleurotus eryngii	?	-	?
Reactive Black 5 + H+ + H2O2	-	Bjerkandera fumosa	?	-	?

pH Optimum

pH Optimum Minimum	pH Optimum Maximum	Comment	Organism
3	-	pH optimum for oxidation of aromatic compounds	Pleurotus ostreatus
3	-	pH optimum for oxidation of aromatic compounds	Bjerkandera adusta
3	-	pH optimum for oxidation of aromatic compounds	Pleurotus eryngii
3	-	pH optimum for oxidation of aromatic compounds	Bjerkandera fumosa
5	-	pH optimum for oxidation of Mn2+	Pleurotus ostreatus
5	-	pH optimum for oxidation of Mn2+	Bjerkandera adusta
5	-	pH optimum for oxidation of Mn2+	Pleurotus eryngii
5	-	pH optimum for oxidation of Mn2+	Bjerkandera fumosa

Cofactor

Cofactor	Comment	Organism	Structure
heme	-	Pleurotus ostreatus
heme	-	Bjerkandera adusta
heme	-	Pleurotus eryngii
heme	-	Bjerkandera fumosa

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Release 2023.1 (January 2023)