Effect of Plasterboard Composition on
            <i>Stachybotrys chartarum</i>
            Growth and Biological Activity of Spores

Murtoniemi, Timo; Nevalainen, Aino; Hirvonen, Maija-Riitta

doi:10.1128/aem.69.7.3751-3757.2003

Cited by 28 publications

(24 citation statements)

References 31 publications

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“…Previously, it has been shown that the age of the culture as well as environmental conditions affect properties ( e.g. viability and cytotoxicity) of fungal spores (Hallsworth & Magan 1996, Cliquet & Jackson 1999, Murtoniemi et al 2003, Cliquet & Jackson 2005). Normally, spores are collected from the whole mycelium.…”

Section: Discussionmentioning

confidence: 99%

Cytosolic streaming in vegetative mycelium and aerial structures of Aspergillus niger

Bleichrodt¹,

Vinck²,

Krijgsheld³

et al. 2013

Studies in Mycology

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Aspergillus niger forms aerial hyphae and conidiophores after a period of vegetative growth. The hyphae within the mycelium of A. niger are divided by septa. The central pore in these septa allows for cytoplasmic streaming. Here, we studied inter- and intra-compartmental streaming of the reporter protein GFP in A. niger. Expression of the gene encoding nuclear targeted GFP from the gpdA or glaA promoter resulted in strong fluorescence of nuclei within the vegetative hyphae and weak fluorescence in nuclei within the aerial structures. These data and nuclear run on experiments showed that gpdA and glaA are higher expressed in the vegetative mycelium when compared to aerial hyphae, conidiophores and conidia. Notably, gpdA or glaA driven expression of the gene encoding cytosolic GFP resulted in strongly fluorescent vegetative hyphae and aerial structures. Apparently, GFP streams from vegetative hyphae into aerial structures. This was confirmed by monitoring fluorescence of photo-activatable GFP (PA-GFP). In contrast, PA-GFP did not stream from aerial structures to vegetative hyphae. Streaming of PA-GFP within vegetative hyphae or within aerial structures of A. niger occurred at a rate of 10–15 μm s-1. Taken together, these results not only show that GFP streams from the vegetative mycelium to aerial structures but it also indicates that its encoding RNA is not streaming. Absence of RNA streaming would explain why distinct RNA profiles were found in aerial structures and the vegetative mycelium by nuclear run on analysis and micro-array analysis.

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Section: Discussionmentioning

confidence: 99%

Cytosolic streaming in vegetative mycelium and aerial structures of Aspergillus niger

Bleichrodt¹,

Vinck²,

Krijgsheld³

et al. 2013

Studies in Mycology

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“…Most of the carbon source in GB for S. chartarum is therefore starch. The removal of the paper liner from the GB does not affect the fungal growth, as shown by Murtoniemiet et al …”

Section: Resultsmentioning

confidence: 79%

Novel mold-resistant building materials impregnated with thermally reduced nano-silver

Chen¹,

Yu²,

Shao

et al. 2018

Indoor Air

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In this study, we evaluated the long-term antifungal effectiveness of 3 types of interior building materials (gypsum board [GB], cement board [CB], and softwood plywood [S-PW]) impregnated with thermally reduced silver nanoparticles supported by titanium dioxide (AgNPs/TiO ) under 95% relative humidity for 4 weeks. AgNPs/TiO was synthesized at 2 thermal reduction temperatures (TRTs, 120 and 200°C) with 2 different AgNP weight percentages (2 and 5 wt%). Four different silver-loading levels (SLLs, 0.025, 0.05, and 0.5 μg/cm and the critical concentration required to inhibit fungal growth on agar plates) and 3 fungal species (Aspergillus niger, Penicillium spinulosum, and Stachybotrys chartarum) were used in the experiments. Higher temperature reduced more ionic Ag to metallic Ag and increased the dispersion of Ag on TiO surface. The 200°C thermally reduced AgNPs/TiO demonstrated excellent antifungal efficiency: Mold growth was almost completely inhibited for 28 days at the low SLL of 0.5 μg/cm . Additionally, AgNPs/TiO exhibited higher antifungal activity on GB and CB than on S-PW. The stepwise regression results indicated that the TRT of AgNPs/TiO (β = -0.739 to -0.51), the SLL (β = -0.477 to -0.269), and the Ag level in the AgNPs (β = -0.379 to -0.136) were the major factors influencing antifungal activity and TRT might be the most significant one.

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“…Murtoniemi et al (2003) studied the influence of composition on the growth of Stachybotrys chartarum on gypsum wall board. Wall board was made without starch in the core and liner or if the gypsum core was desulfurized showed inhibited fungal growth.…”

Section: Fungal Destruction Of Papermentioning

confidence: 99%

Fungi and paper manufacture

Jerusik

2010

Fungal Biology Reviews

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Effect of Plasterboard Composition on Stachybotrys chartarum Growth and Biological Activity of Spores

Cited by 28 publications

References 31 publications

Cytosolic streaming in vegetative mycelium and aerial structures of Aspergillus niger

Cytosolic streaming in vegetative mycelium and aerial structures of Aspergillus niger

Novel mold-resistant building materials impregnated with thermally reduced nano-silver

Fungi and paper manufacture

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