From: Engineering and Applications of fungal laccases for organic synthesis
Laccase source | Application | Reference |
---|---|---|
Coriolus hirsutus | Synthesis of an indamine dye | Baker et al. [122] |
 | Synthesis of conducting polyaniline | Karamyshev et al. [116] |
Pycnoporus cinnabarinus | Synthesis of 3-(3,4-dihydroxyphenyl)-propionic acid derivatives | Mikolasch et al. [45] |
Pycnoporus coccineus | Polymerization to functional polymers | Uyama and Kobayashi [123] |
Pyricularia oryzae | Oxidative coupling of 3-methyl 2-benzothiazolinone hydrazone and methoxyphenols | Setti et al. [124] |
Trametes versicolor | Synthesis of aromatic aldehydes | Fritz-Langhals and Kunath [40] |
 | Polymerization of 1-napthol | Akta et al. [125] |
 | Synthesis of substituted imidazoles and dimerization products | Schäfer et al. [126] |
 | Polymerization of catechol | Akta and Tanyolaç [127] |
 | Cross-linking of a protein | Boumans et al. [128] |
 | Synthesis of 3,4-dihydro-7,8-dihydroxy-2H-dibenzofuran-1-ones | Hajdok et al. [129] |
Trametes villosa | Polymerization of bisphenol A | Uchida et al. [130] |
Trametes hirsuta | Oligomerization of protein | Mattinen et al. [131] |
Trametes pubescens | Oxidation of sugars derivatives | Marzorati et al. [132] |
 | Oxidation of natural glycosides | Baratto et al. [133] |
 | Synthesis of totarol | Ncanana et al. [134] |
Pyricularia oryzae | Crosslinking of recombinant proteins | Suderman et al. [135] |
Agaricus bisporus | Synthesis of 3,4-dihydro-7,8-dihydroxy-2H-dibenzofuran-1-ones | Hajdok et al. [129] |
Myceliophthora | Synthesis of poly(catechin) | Kurisawa et al. [136] |