White-rot basidiomycetes are the main decomposers of woody biomass in forest ecosystems. Little is known, however, about the interactions between white-rot fungi and other microorganisms in decayed wood. A wood-rotting fungus, Stereum sp. strain TN4F, was isolated from a fruit body, and its coexisting cultivable bacteria were isolated from its substrate; natural white-rot decayed wood. The effects of bacteria on fungal growth were examined by confrontational assay in vitro. A growth-promoting bacterium for this Stereum strain was identified as Curtobacterium sp. TN4W-19, using 16SrRNA sequencing. A confrontational assay revealed that Curtobacterium sp. TN4W-19 significantly promoted the mycelial growth of Stereum sp. TN4F in the direction of the bacterial colony, without direct contact between the mycelium and bacterial cells. This is the first report of a positive interaction between a white-rot fungus and a coexisting bacterial strain in vitro.
BackgroundThe white-rot fungus Phlebia sp. strain MG-60 was proposed as a candidate for integrated fungal fermentation process (IFFP), which unifies aerobic delignification and semi-aerobic consolidated biological processing by a single microorganism based on its ability to efficiently degrade lignin and ferment the sugars from cellulose. To improve IFFP, the development of a molecular breeding method for strain MG-60 is necessary. The purpose of this study is to establish the transformation method for the strain MG-60 and to obtain the over-expressing transformants of lignin-degrading enzyme, manganese peroxidase.FindingsIn the present study, the expression vector regulated by Phlebia brevispora glyceraldehyde-3-phosphate dehydrogenase promoter and terminator was constructed. A polyethylene glycol transformation method for the ethanol-fermenting white-rot fungus Phlebia sp. MG-60 was established with high transformation efficiency, and the manganese peroxidase isozyme 2 gene (MGmnp2) transformants were obtained, showing higher MnP activity than control transformants. MGmnp2 transformants showed higher selective lignin degradation on Quercus wood powder.ConclusionsThis first report of MG-60 transformation provides a useful methodology for widely accessible to interested researches. These results indicate the possibility of metabolic engineering of strain MG-60 for improving IFFP.Electronic supplementary materialThe online version of this article (doi:10.1186/2193-1801-3-699) contains supplementary material, which is available to authorized users.
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