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The ligninolytic peroxidases in the genus Pleurotus: divergence in activities, expression, and potential applications

Knop, Doriv ; Yarden, Oded ; Hadar, Yitzhak

Applied Microbiology and Biotechnology, Feb 2015, Vol.99(3), pp.1025-1038 [Peer Reviewed Journal]

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  • Title:
    The ligninolytic peroxidases in the genus Pleurotus: divergence in activities, expression, and potential applications
  • Author: Knop, Doriv ; Yarden, Oded ; Hadar, Yitzhak
  • Subjects: Studies ; Fungi ; Biotechnology ; Pharmaceutical Industry ; Experimental/Theoretical ; Pharmaceuticals Industry
  • Is Part Of: Applied Microbiology and Biotechnology, Feb 2015, Vol.99(3), pp.1025-1038
  • Description: Mushrooms of the genus Pleurotus are comprised of cultivated edible ligninolytic fungi with medicinal properties and a wide array of biotechnological and environmental applications. Like other white-rot fungi (WRF), they are able to grow on a variety of lignocellulosic biomass substrates and degrade both natural and anthropogenic aromatic compounds. This is due to the presence of the non-specific oxidative enzymatic systems, which are mainly consisted of lacasses, versatile peroxidases (VPs), and short manganese peroxidases (short-MnPs). Additional, less studied, peroxidase are dye-decolorizing peroxidases (DyPs) and heme-thiolate peroxidases (HTPs). During the past two decades, substantial information has accumulated concerning the biochemistry, structure and function of the Pleurotus ligninolytic peroxidases, which are considered to play a key role in many biodegradation processes. The production of these enzymes is dependent on growth media composition, pH, and temperature as well as the growth phase of the fungus. Mn^sup 2+^ concentration differentially affects the expression of the different genes. It also severs as a preferred substrate for these preoxidases. Recently, sequencing of the Pleurotus ostreatus genome was completed, and a comprehensive picture of the ligninolytic peroxidase gene family, consisting of three VPs and six short-MnPs, has been established. Similar enzymes were also discovered and studied in other Pleurotus species. In addition, progress has been made in the development of molecular tools for targeted gene replacement, RNAi-based gene silencing and overexpression of genes of interest. These advances increase the fundamental understanding of the ligninolytic system and provide the opportunity for harnessing the unique attributes of these WRF for applied purposes.
  • Language: English
  • Identifier: ISSN: 01757598 ; E-ISSN: 14320614 ; DOI: 10.1007/s00253-014-6256-8

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