Mycelium

About: Mycelium is a research topic. Over the lifetime, 8923 publications have been published within this topic receiving 170993 citations.

Effects of Ozone Treatment on Botrytis cinerea and Sclerotinia sclerotiorum in Relation to Horticultural Product Quality

Abstract: Botrytis cinerea and Sclerotinia sclerotiorum are fungal pathogens that cause the decay of many fruits and vegetables. Ozone may be used as an antimicrobial agent to control the decay. The effect of gaseous ozone on spore viability of B. cinerea and mycelial growth of B. cinerea and S. sclerotiorum were investigated. Spore viability of B. cinerea was reduced by over 99.5% (P < 0.01) and height of the aerial mycelium was reduced from 4.7 mm in the control to less than 1 mm after exposure to 450 or 600 ppb ozone for 48 h at 20 degrees C. Sporulation of B. cinerea was also substantially inhibited by ozone treatments. However, ozone had no significant effect on mycelial growth of S. sclerotiorum in vitro. Decay and quality parameters including color, chlorophyll fluorescence (CF), and ozone injury were further assessed for various horticultural commodities (apple, grape, highbush blueberry, and carrot) treated with 450 ppb of ozone for 48 h at 20 degrees C over a period of 12 d. Lesion size and height of the aerial mycelium were significantly reduced by the ozone treatment on carrots inoculated with mycelial agar plugs of B. cinerea or S. sclerotiorum. Lesion size was also reduced on treated apples inoculated with 5 x 10(6) spores/mL of B. cinerea, and decay incidence of treated grapes was reduced. The 450 ppb ozone for 48 h treatment had no significant effect on color of carrots and apples or on CF of apples and grapes. Ozone, an environmentally sound antimicrobial agent, inactivates microorganisms through oxidization and residual ozone spontaneously decomposes to nontoxic products. It may be applied to fruits and vegetables to reduce decay and extend shelf life.

Cleavage of sucrose in roots of soybean (Glycine max) colonized by an arbuscular mycorrhizal fungus

Abstract: Summary • Here we tested the hypothesis that the activity of sucrose-cleaving enzymes is modified in roots colonized by arbuscular fungi. • The activities of soluble and cell-wall bound invertases and of sucrose synthase were assessed in nonnodulated roots of soybean (Glycine max), either inoculated with the arbuscular mycorrhizal fungus Glomus mosseae, or in the absence of inoculation. Furthermore, we assessed the activity of sucrose-cleaving enzymes in cultured extraradical mycelium of the arbuscular fungus Glomus intraradices. • Both soluble and cell wall-bound acid invertase activities decreased during the course of the experiment; there were no differences between mycorrhizal and nonmycorrhizal plants. Alkaline invertase activity was significantly higher in inoculated roots from the beginning of root colonization. Sucrose synthase activity showed no significant differences between treatments for 35 d, thereafter it became significantly higher in mycorrhizal roots. No sucrose cleaving activities were detected in extraradical mycelium. • Fungal colonization of soybean roots induces an increase in alkaline invertase activity, which could provide hexoses for the fungal symbiont and for development of colonized cells.

GintAMT3 - a Low-Affinity Ammonium Transporter of the Arbuscular Mycorrhizal Rhizophagus irregularis.

Abstract: Nutrient acquisition and transfer are essential steps in the arbuscular mycorrhizal (AM) symbiosis, which is formed by the majority of land plants. Mineral nutrients are taken up by AM fungi from the soil and transferred to the plant partner. Within the cortical plant root cells the fungal hyphae form tree-like structures (arbuscules) where the nutrients are released to the plant-fungal interface, i.e. to the periarbuscular space, before being taken up by the plant. In exchange, the AM fungi receive valuable carbohydrates from the plant host. Besides the well-studied uptake of phosphorus (P), the uptake and transfer of nitrogen (N) plays a crucial role in this mutualistic interaction. In the AM fungus Rhizophagus irregularis (formerly called Glomus intraradices), two ammonium transporters (AMT) were previously described, namely GintAMT1 and GintAMT2. Here, we report the identification and characterization of a newly identified R. irregularis AMT, GintAMT3. Phylogenetic analyses revealed high sequence similarity to previously identified AM fungal AMTs and a clear separation from other fungal AMTs. Topological analysis indicated GintAMT3 to be a membrane bound pore forming protein, and GFP tagging showed it to be highly expressed in the intraradical mycelium (IRM) of a fully established AM symbiosis. Expression of GintAMT3 in yeast successfully complemented the yeast AMT triple deletion mutant (MATa ura3 mep1Δ mep2Δ::LEU2 mep3Δ::KanMX2). GintAMT3 is characterized as a low affinity transport system with an apparent Km of 1.8 mM and a Vmax of 240 nmol-1 min-1 108 cells-1, which is regulated by substrate concentration and carbon supply.

Inhibition of the fungal asexual reproduction stages by three Moroccan essential oils

Abstract: The effect of oregano (Origanum compactum Benth.), mugwort (Artemisia herba-alba Asso) and eucalyptus (Eucalyptus globulus Labill.) oils on spore germination, mycelial elongation and sporulation were studied in three fungi. All three stages of fungal asexual reproduction were affected, but mycelium growth was the most sensitive, followed by spore germination and then sporulation. Of the three fungi studied, Zygorrhynchus sp. was found to be the most sensitive followed by Aspergillus niger and then Penicillium italicum. Oregano oil was observed to be the most active on the three phenomena studied, followed by mugwort at spore germination and sporulation stages and eucalyptus oil when mycelial elongation was considered. The antifungal activity at all three stages of asexual reproduction was shown to be related to oil composition.

Fungal hyphal dynamics in a western oregon douglas-fir stand

Abstract: Summary-Total length and biomass of fungal mycelium in the soil of a young stand of second-growth Douglas-fir in the central Oregon Coast Range were estimated over 27 months with the agar-film technique. Mycelial mass was at maximum in fall and spring and significantly lower in summer. Melanized hyphae dominated other colors, averaging 66% of monthly litter and 73.7% of soil hyphal weight. The mycorrhizal fungus Cenococcum geophilum Fr. had significantly larger average diameter than other hyphae and contributed from 1.2 to 64.8% of the monthly hyphal volume. Multiple regression analyses with temperature, moisture, and litterfall produced no adequate predictive equations for monthly fungal biomass. Large biomass fluctuations over short periods necessitate frequent sampling and long-term study to fully assess the importance of fungal hyphae in ecosystems.