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http://dx.doi.org/10.4014/jmb.1410.10054

Fungal Growth and Manganese Peroxidase Production in a Deep Tray Solid-State Bioreactor, and In Vitro Decolorization of Poly R-478 by MnP  

Zhao, Xinshan (College of Life Science, Anhui University)
Huang, Xianjun (College of Life Science, Anhui University)
Yao, Juntao (College of Life Science, Anhui University)
Zhou, Yue (College of Life Science, Anhui University)
Jia, Rong (College of Life Science, Anhui University)
Publication Information
Journal of Microbiology and Biotechnology / v.25, no.6, 2015 , pp. 803-813 More about this Journal
Abstract
The growth of Irpex lacteus F17 and manganese peroxidase (MnP) production in a selfdesigned tray bioreactor, operating in solid-state conditions at a laboratory scale, were studied. The bioreactor was divided into three layers by three perforated trays. Agroindustrial residues were used both as the carrier of bound mycelia and as a nutrient medium for the growth of I. lacteus F17. The maximum biomass production in the bioreactor was detected at 60 h of fermentation, which was consistent with the CO2 releasing rate by the fungus. During the stationary phase of fungal growth, the maximum MnP activity was observed, reaching 950 U/l at 84 h. Scanning electron microscopy images clearly showed the growth situation of mycelia on the support matrix. Furthermore, the MnP produced by I. lacteus F17 in the bioreactor was isolated and purified, and the internal peptide sequences were also identified with mass spectrometry. The optimal activity of the enzyme was detected at pH 7 and 25℃, with a long half-life time of 9 days. In addition, the MnP exhibited significant stability within a broad pH range of 4-7 and at temperature up to 55℃. Besides this, the MnP showed the ability to decolorize the polymeric model dye Poly R-478 in vitro.
Keywords
Irpex lacteus F17; tray bioreactor; solid-state fermentation; manganese peroxidase; polymeric dye Poly R-478; decolorization;
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