Any feedback?
Please rate this page
(literature.php)
(0/150)

BRENDA support

Literature summary for 1.10.3.2 extracted from

  • Sharma, A.; Jain, K.K.; Jain, A.; Kidwai, M.; Kuhad, R.C.
    Bifunctional in vivo role of laccase exploited in multiple biotechnological applications (2018), Appl. Microbiol. Biotechnol., 102, 10327-10343 .
    View publication on PubMed
Search for more literature for 1.10.3.2

Application

Application Comment Organism
industry laccases can be considered as one of the most important biocatalyst which can be exploited for divergent industrial applications viz. paper pulp bleaching, fiber modification, dye decolorization, bioremediation as well as organic synthesis Ustilago maydis
industry laccases can be considered as one of the most important biocatalyst which can be exploited for divergent industrial applications viz. paper pulp bleaching, fiber modification, dye decolorization, bioremediation as well as organic synthesis Trametes versicolor
industry laccases can be considered as one of the most important biocatalyst which can be exploited for divergent industrial applications viz. paper pulp bleaching, fiber modification, dye decolorization, bioremediation as well as organic synthesis Trametes cinnabarina
industry laccases can be considered as one of the most important biocatalyst which can be exploited for divergent industrial applications viz. paper pulp bleaching, fiber modification, dye decolorization, bioremediation as well as organic synthesis Trametes hirsuta
industry laccases can be considered as one of the most important biocatalyst which can be exploited for divergent industrial applications viz. paper pulp bleaching, fiber modification, dye decolorization, bioremediation as well as organic synthesis Trametes villosa
industry laccases can be considered as one of the most important biocatalyst which can be exploited for divergent industrial applications viz. paper pulp bleaching, fiber modification, dye decolorization, bioremediation as well as organic synthesis Crinipellis sp.
synthesis the enzyme from Crinipellis sp. synthesizes oxaflavins for redox co-enzymes Crinipellis sp.
synthesis the enzyme from Pycnoporus cinnabarinus synthesizes 1. benzofuropyroles, which are potent pharmaceutical agents, 2. the pharmaceutical agent 6,7-dihydroxy-2,2-dimethyl-1,3,9-trioxa-fluoren-4-one Trametes cinnabarina
synthesis the enzyme from Trametes hirsute synthesizes polyanniline Trametes hirsuta
synthesis the enzyme from Trametes versicolor synthesizes 1. polycatechol, a valuable polymer used as a chromatographic resin and in the formation of thin films for biosensors, 2. benzofuranones for medicinal chemistry, 3. poly allylamine with high antioxidant potential, 4. dyes used in hair dyeing, 5. benzoquinones used as intermediates in pharmaceuticals, 6. phenazine and phenoxazinone chromopheres for synthetic dyes Trametes versicolor
synthesis the enzyme from Trametes villosa synthesizes benzofurans with antimicrobial and anti-inflammatory activities Trametes villosa
synthesis the enzyme from Ustilago maydis synthesizes polymers of quercitin and kampferol with improved antioxidant properties of the polymers compared to the monomers Ustilago maydis

Metals/Ions

Metals/Ions Comment Organism Structure
copper multicopper enzyme Ustilago maydis
copper multicopper enzyme Trametes versicolor
copper multicopper enzyme Trametes cinnabarina
copper multicopper enzyme Trametes hirsuta
copper multicopper enzyme Trametes villosa
copper multicopper enzyme Crinipellis sp.

Organism

Organism UniProt Comment Textmining
Crinipellis sp.
-
-
-
Trametes cinnabarina
-
-
-
Trametes hirsuta
-
-
-
Trametes versicolor
-
-
-
Trametes villosa
-
-
-
Ustilago maydis
-
-
-

General Information

General Information Comment Organism
physiological function plant, bacterial, and insect laccases have a polymerizing role in nature, implicated in biosynthesis of lignin, melanin formation, and cuticle hardening, respectively. On the other hand, fungal laccases carry out both polymerizing (melanin synthesis and fruit body formation) as well as depolymerizing roles (lignin degradation) Ustilago maydis
physiological function plant, bacterial, and insect laccases have a polymerizing role in nature, implicated in biosynthesis of lignin, melanin formation, and cuticle hardening, respectively. On the other hand, fungal laccases carry out both polymerizing (melanin synthesis and fruit body formation) as well as depolymerizing roles (lignin degradation) Trametes versicolor
physiological function plant, bacterial, and insect laccases have a polymerizing role in nature, implicated in biosynthesis of lignin, melanin formation, and cuticle hardening, respectively. On the other hand, fungal laccases carry out both polymerizing (melanin synthesis and fruit body formation) as well as depolymerizing roles (lignin degradation) Trametes cinnabarina
physiological function plant, bacterial, and insect laccases have a polymerizing role in nature, implicated in biosynthesis of lignin, melanin formation, and cuticle hardening, respectively. On the other hand, fungal laccases carry out both polymerizing (melanin synthesis and fruit body formation) as well as depolymerizing roles (lignin degradation) Trametes hirsuta
physiological function plant, bacterial, and insect laccases have a polymerizing role in nature, implicated in biosynthesis of lignin, melanin formation, and cuticle hardening, respectively. On the other hand, fungal laccases carry out both polymerizing (melanin synthesis and fruit body formation) as well as depolymerizing roles (lignin degradation) Trametes villosa
physiological function plant, bacterial, and insect laccases have a polymerizing role in nature, implicated in biosynthesis of lignin, melanin formation, and cuticle hardening, respectively. On the other hand, fungal laccases carry out both polymerizing (melanin synthesis and fruit body formation) as well as depolymerizing roles (lignin degradation) Crinipellis sp.