Laccase and enoate reductase are promising tools in bioconversion of several substrates of biotechnological interest. In this study, one fungus producing laccase and two fungi producing enoate reductase were used in the bioconversion of caffeic acid and a set of unsaturated compounds (α- methylcinnamaldehyde, α- methylnitrostyrene and cyclohexenone) showing interesting conversion products.
Fungal laccases and enoate reductases as biocatalysts of fine chemical transformations / A., Romagnolo; F., Spina; D., Carusetta; L., Nerva; Cramarossa, Maria Rita; F., Parmeggiani; Forti, Luca; E., Brenna; G. C., Varese. - STAMPA. - 32:(2013), pp. 961-966. (Intervento presentato al convegno 11th International Conference on Chemical and Process Engineering. tenutosi a Milano, Italy nel 2‐5 June 2013) [10.3303/CET1332161].
Fungal laccases and enoate reductases as biocatalysts of fine chemical transformations
CRAMAROSSA, Maria Rita;FORTI, Luca;
2013
Abstract
Laccase and enoate reductase are promising tools in bioconversion of several substrates of biotechnological interest. In this study, one fungus producing laccase and two fungi producing enoate reductase were used in the bioconversion of caffeic acid and a set of unsaturated compounds (α- methylcinnamaldehyde, α- methylnitrostyrene and cyclohexenone) showing interesting conversion products.
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