25 mm). C. Lamella appeared by digestion in areas of pileus (bar = 0.25 mm). D-F. Scanning electron micrograph. D. Differentiated primordium with radial growing hyphae in pileus (bar = 100 μm, on detail bar = 30 μm). E. Densely packed stipe hyphae (bar
= 20 μm). F. Clamped hyphae of primordium (bar = 2 μm). G. Primordia extension stage (bar = 1 mm). H. Different primordia in extension stage (bar = 0.5 cm). I. Basidiomata obtained in vitro with exposed lamellae (bar = 1 cm). The various developmental stages of M. perniciosa https://www.selleckchem.com/products/AZD1480.html basidiomata formation were very similar to those previously described in detail for Agaricus sp. [17], C. cinerea [19], Mycena stylobates [34] and Laccaria spp. [18]. Differentiation in Agaricus occurred at the initial stage to produce a bipolar fruiting body primordium [17, 19]. This process Omipalisib appears to be conserved among Agaricales with slight differences between species. It was rather difficult to microscopically observe the hyphal nodule of the mycelial mats grown on “”Griffith medium”" due to the density of the hyphal layer. However, the primary hyphal nodule stages of M. perniciosa basidiomata were inferred from the presence of areas of intense localized ramifying hyphal aggregates in small nodules (Compound C solubility dmso Figure 2F). These nodules
progressed to a globose aggregate, surrounded by a dense layer of amorphous material, an irregular arrangement of interwoven hyphae on the internal tissue of dry brooms stained green (Figure 3A), which can be considered the initial stage of hyphal aggregation. This hyphal agglomerate is distinguished by acid fuchsin which stains only living tissues [35]. Aggregates found in dark reddish-pink mycelium (Figure 2F) indicated a competent mycelium from which primordia may originate, similar to the aggregates in Laccaria sp., which would give rise to basidiomata [18]. Globose aggregates appeared on the surface with DOK2 a protective layer covering a hyphal bulb (Figure 1E, *). Walther et al. [34] described a similar phenomenon in the initial development
of M. stylobates. The initial formation of this layer can be observed in M. perniciosa (Figure 3A, arrow) that later covered the surface of the protuberant area (Figure 1E, *). Then, an initial emerged (Figure 1F and Figure 3C) and differentiated into a primordium, here referred to as the third stage (Figure 3E). It is likely that enzymatic digestion by chitinases [36] occurred in the hyphae of the outer layer, thereby allowing the “”initial”" to emerge as a dense layer, with amorphous material in the center of the protuberance. Differentiation continued leading to the formation of the lamellae (Figure 3E, arrow and Figure 4C) and later the pileus (Figure 4B). The apical region of initials formed the pileus and the basal region formed the stipe (Figure 4B).