Genomic and Transcriptomic Insight of Giant Sclerotium Formation of Wood-Decay Fungi

Many fungi form persistent and dormant sclerotia with compact hardened mycelia during unfavorable circumstances. While most of these sclerotia are small in size, Wolfiporia cocos, a wood-decay fungus, grows into giant sclerotia, which are mainly composed of polysaccharides of linear (1→3)-β-D-glucans. To explore the underlying mechanism of converting sophisticated wood polysaccharides for biosynthesis of highly homogenized glucans in W. cocos, we sequenced and assembled the genome of a cultivated W. cocos strain (WCLT) in China. The 62-Mb haploid genome contains 44.2% repeat sequences, of which, 48.0% are transposable elements (TEs). Contrary to the genome of W. cocos from North America, WCLT has independently undergone a partial genome duplication (PGD) event. The large-scale TE insertion and PGD occurrence overlapped with an archeological Pleistocene stage of low oxygen and high temperature, and these stresses might have induced the differences in sclerotium due to geographical distribution. The wood decomposition enzymes, as well as sclerotium-regulator kinases, aquaporins, and highly expanded gene families such as NAD-related families, together with actively expressed 1,3-β-glucan synthase for sclerotium polysaccharides, all have contributed to the sclerotium formation and expansion. This study shall inspire further exploration on how fungi convert wood into simple glucans in the sclerotium of W. cocos.

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Chloroanisoles and Chlorophenols Explain Mold Odor but Their Impact on the Swedish Population Is Attributed to Dampness and Mold

International Journal of Environmental Research and Public Health ◽

10.3390/ijerph17030930 ◽

2020 ◽

Vol 17 (3) ◽

pp. 930 ◽

Cited By ~ 1

Author(s):

Johnny C. Lorentzen ◽

Stephanie A. Juran ◽

Lena Ernstgård ◽

Mats J. Olsson ◽

Gunnar Johanson

Keyword(s):

Large Scale ◽

Wood Decay ◽

Concrete Slabs ◽

Swedish Population ◽

Decay Fungi ◽

The Public ◽

Construction Methods ◽

Wood Decay Fungi ◽

Chemical Companies ◽

Household Chemicals

We recently reported that mold odor may be explained by chloroanisoles (CAs) formed by microbial biotransformation of chlorophenols (CPs) in legacy wood preservatives. Here we examine psychophysical aspects of CAs and trace their historic origins in buildings. Our exposure of healthy volunteers shows that 2,4,6-triCA is often perceived as unpleasant, characterized as musty or moldy and is detected at 13 ng/m3 or lower. Similar concentrations are reported in buildings with odor complaints. Scrutiny of written records reveal that new building construction methods were introduced in the 1950s, namely crawlspaces and concrete slabs on the ground. These constructions were prone to dampness and attack from wood decay fungi, prompting chemical companies and authorities to advocate preservatives against rot. Simultaneously, CPs became household chemicals used for example in indoor paints. When large-scale odor problems evolved, the authorities that once approved the preservatives attributed the odor to hidden mold, with no evidence that substantial microbial biomass was necessary for odor formation. Thereby the public remained unaware of problematic exposure to CPs and CAs. We conclude that the introduction of inappropriate designs of house foundations and CP-based preservatives once ignited and still provide impetus for indoor air research on “dampness and mold”.

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Growth inhibition of wood-decay fungi by lignin-related aromatic compounds

European Journal of Wood and Wood Products ◽

10.1007/s00107-021-01689-z ◽

2021 ◽

Author(s):

Cédric Cabral Almada ◽

Mathilde Montibus ◽

Frédérique Ham-Pichavant ◽

Sandra Tapin-Lingua ◽

Gilles Labat ◽

...

Keyword(s):

Growth Inhibition ◽

Aromatic Compounds ◽

Wood Decay ◽

Decay Fungi ◽

Wood Decay Fungi

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Aliphatic acids as spore germination inhibitors of wood-decay fungi in vitro

Canadian Journal of Botany ◽

10.1139/b85-040 ◽

1985 ◽

Vol 63 (2) ◽

pp. 337-339 ◽

Cited By ~ 2

Author(s):

Elmer L. Schmidt

Keyword(s):

Spore Germination ◽

Germ Tube ◽

White Rot Fungi ◽

Wood Decay ◽

White Rot ◽

Malt Extract ◽

Decay Fungi ◽

Aliphatic Acids ◽

Wood Decay Fungi

Influences of eight saturated aliphatic acids (C5–C10, C12, and C16) on basidiospores of four isolates of wood-decay fungi (Poria tenuis and Trametes hispida, white rot fungi, and two isolates of the brown rot fungus Gloeophyllum trabeum) were observed in vitro. Spore responses after 24 h on malt extract agar containing 10, 102 or 103 ppm of each acid included normal germination, delay of germ tube emergence, vacuolation and degeneration of spore cytoplasm, and prevention of germ tube development without spore destruction. Acids of chain length C5–C10 prevented spore germination and killed spores of all fungi at concentrations of 20–50 ppm in media, whereas other acids tested were less active. Spore germination assay of decay fungi may prove useful as a screening tool to compare potency of wood preservatives.

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The role of wood decay fungi in the carbon and nitrogen dynamics of the forest floor

Fungi in Biogeochemical Cycles ◽

10.1017/cbo9780511550522.008 ◽

2009 ◽

pp. 151-181 ◽

Cited By ~ 31

Author(s):

Sarah Watkinson ◽

Dan Bebber ◽

Peter Darrah ◽

Mark Fricker ◽

Monika Tlalka ◽

...

Keyword(s):

Forest Floor ◽

Wood Decay ◽

Nitrogen Dynamics ◽

Decay Fungi ◽

Carbon And Nitrogen ◽

Wood Decay Fungi ◽

Carbon And Nitrogen Dynamics

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Bioconversion of Heptachlor Epoxide by Wood-Decay Fungi and Detection of Metabolites

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.518-523.29 ◽

2012 ◽

Vol 518-523 ◽

pp. 29-33 ◽

Cited By ~ 2

Author(s):

Peng Fei Xiao ◽

Toshio Mori ◽

Ryuichiro Kondo

Keyword(s):

Wide Spectrum ◽

Wood Decay ◽

Heptachlor Epoxide ◽

Hydroxyl Group ◽

Epoxide Ring ◽

Limited Information ◽

Decay Fungi ◽

Wood Decay Fungi ◽

Metabolic Products ◽

Phlebia Brevispora

Although heptachlor epoxide is one of the most persistent organic pollutants (POPs) that cause serious environmental problems, there is very limited information of the biodegradation of heptachlor epoxide by microorganisms, and no systematic study on the metabolic products and pathway of endrin by microorganisms has been conducted. Wood-decay fungi can degrade a wide spectrum of recalcitrant organopollutants, including polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated biphenyls (PCBs). In this study, 18 wood-decay fungi strains of genus Phlebia were investigated for their ability to degrade heptachlor epoxide, and Phlebia acanthocystis, Phlebia brevispora, Phlebia lindtneri and Phlebia aurea removed about 16, 16, 22 and 25% of heptachlor epoxide, respectively, after 14 days of incubation. Heptachlor diol and 1-hydroxy-2,3-epoxychlordene were detected in these fungal cultures as metabolites by gas chromatography and mass spectrometry (GC/MS), suggesting that the hydrolysis reaction in the epoxide ring and substitution of chlorine atom with hydroxyl group in C1 position occur in bioconversion of heptachlor epoxide by selected wood-decay fungi, respectively. This is the first report describing the metabolites of heptachlor epoxide by microorganisms.

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Host-exclusivity and host-recurrence by wood decay fungi (Basidiomycota - Agaricomycetes) in Brazilian mangroves

Acta Botanica Brasilica ◽

10.1590/0102-33062017abb0130 ◽

2017 ◽

Vol 31 (4) ◽

pp. 566-570 ◽

Cited By ~ 4

Author(s):

Georgea S. Nogueira-Melo ◽

Paulo J. P. Santos ◽

Tatiana B. Gibertoni

Keyword(s):

Wood Decay ◽

Decay Fungi ◽

Wood Decay Fungi

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Leaf extracts of Casearia sylvestris and Casearia decandra affect growth and production of ligninolytic enzymes in wood decay basidiomycetes

Hoehnea ◽

10.1590/2236-8906-45/2016 ◽

2016 ◽

Vol 43 (4) ◽

pp. 575-581 ◽

Cited By ~ 1

Author(s):

Thiara Siqueira Bento ◽

Luce Maria Brandão Torres ◽

Mauricio Batista Fialho ◽

Vera Lúcia Ramos Bononi

Keyword(s):

Wood Decay ◽

Ligninolytic Enzymes ◽

Wood Products ◽

White Rot ◽

Leaf Extracts ◽

Decay Fungi ◽

Pycnoporus Sanguineus ◽

Wood Decay Fungi ◽

Tropical Flora ◽

Casearia Sylvestris

ABSTRACT White-rot basidiomycetes are able to deteriorate wood products and be pathogenic to living trees, requiring, thus requiring control. The tropical flora is an important source of eco-friendly antifungal compounds; however, the knowledge on how leaf extracts affect the fungal physiology is limited. Therefore, in the present work we investigated the influence of ethanolic leaf extracts of Casearia sylvestris and C. decandra at 0.1 mg mL-1 on the production of ligninolytic enzymes by Trametes villosa, Ganoderma australe and Pycnoporus sanguineus. Overall, the extracts inhibited the mycelial growth and the production of biomass. Additionally, C. sylvestris extract reduced the production of manganese peroxidase and laccase; however, the exposure to C. decandra extract resulted in variable responses. Therefore, enzymes related to lignin degradation are potential targets to control wood decay fungi by plant bioactive compounds, as their ability to colonize the substrate may be impaired.

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