Induced cytological aberrancies in basidiocarp morphology of Schizophyllum commune Fr.

Summary Compatible strains of Schizophyllum commune Fr. were grown on a minimal medium with adjustments in the CO₂ level and the carbon source. Acetate with glucose initiated reduced stipes and pilei of fruit-bodies, and changed lamellar cell structure. Sealed growth chambers increased CO₂ levels and inhibited basidiocarp formation while growth of dense hyphal aggregates in the dikaryotic mycelium was stimulated.     

Dikaryotic fruiting in Schizophyllum commune Fr.: Morphology of the developing basidiocarp

Summary Sporulating dikaryotic fruit-bodies of Schizophyllum commune (str. 699 A41B41 + str. 845 A51B51) were produced on glucose-asparagine medium and harvested at various stages of development for histological studies. Distinct patterns of cell organization were observed from basidiocarp initials to mature fructifications. Different cell types included basal bulbous cells, cylinders of parallel hyphae in the stipe, loosely knit tramal cells in the lamellae, specialized sub-hymenial cells and basidia. Large encrustations were observed protruding from the hymenium near the lamellar apex. Lateral hairs and crystalline matter were also seen in these genetically defined dikaryotic fruit-bodies which arose on simple medium in the laboratory.     

Growth,cell division and branching patterns of Schizophyllum commune Fr. single basidiospore germlings

Summary Basidiospores of Schizophyllum commune Fr. were germinated and observed growing on microscope slides containing minimal medium. Micron measurements of the young germlings were made along with observations of nuclear division, cross wall formation and branching. Growth patterns and relationships of various parts of the developing germling were compared. Linear relations were observed between the length of the main axis and the number of cells in the main axis, and the number of primary branches in relation to the number of cells in the main axis while other comparisons were less conclusive. In addition to cell division occurring in terminal cells of hyphae, mature subterminal cells also delimited further with a somewhat regular cleavage division. Lack of synchrony in nuclear division between any of the cells of the germling hypha implicated autonomy of the individual components once delimitation had occurred.     

Meiosis as a source of spontaneous mutations in Schizophyllum commune

Spontaneous mutation frequencies were determined for two loci in the fungus Schizophyllum commune, at meiosis and at mitosis. For both loci the meiotic frequency is significantly higher than the mitotic frequency. No correlation was found between meiotic mutagenesis and recombination of markers bracketing the mutant site. The meiotic temperature affected the spontaneous mutation frequency but not the recombination frequency in the cross examined.A number of suppressor mutations were detected for both loci examined. Almost all the suppressors are closely linked to the site they suppress. The distribution of mutations among the suppressor sites was different at meiosis and at mitosis.     

Trehalase in Schizophyllum commune

Summary The hydrolytic enzyme trehalase was demonstrated in mycelial extracts of Schizophyllum commune cultured on either glucose or trehalose as sole source of carbon and energy. The enzyme was also detected in culture-filtrates of trehalose-grown cells. The intracellular forms of trehalase from glucose- and trehalose-cultures were similar in their response to dialysis and heat treatment as well as pH optimum, affinity constant for trehalose and resistance to a variety of sugar alcohols.     

Polymorphism of intracellular isoenzymes of Schizophyllum commune Fr. (Basidiomycetes) in the Donetsk region

The results of a study of the polymorphism of intracellular isoenzymes in cultures of Schizophyllum commune Fr. grown in the Donetsk region are presented here. The electrophoretic spectra of AMY, ADH, GPDH, GDH, SDH, and EST are described and given in the paper. Enzyme systems, such as ADH, GPDH, and GDH, were found to be monomorphic. The EST enzyme showed the highest intracellular isoform diversity. Six obviously distinguished zones were found for this enzyme. Polymorphism is inherent for three of them.     

Induction of cellulose in Schizophyllum commune: thiocellobiose as a new inducer.

Several mono-, di, tetra-, and polysaccharides were screened for their ability to induced cellulase production by the tetrapolar hymenomycete Schizophyllum commune. Out of 21 carbohydrates screened, 4 (thiocellobiose, carboxymethylcellulose, cellobiose, and xylan) induced all three enzymes tested (carboxymethylcellulase, beta-glucosidase, and xylanase). The inducing effect increased with rising concentrations of the inducers up to a certain value, beyond which there was either a leveling off or a decrease of the enzymatic activities. The most powerful inducer, thiocellobiose, showed the highest activity at 0.5 mM. Cellobiose, carboxymethylcellulose, and xylan showed their highest activities at 1 mM and 1%, respectively. Surprisingly, sophorose did not enhance enzyme production. The enzymatic activities were monitored over a period of 24 h. Thiocelloboise elicited a response immediately after incubation, but with all other inducers there was a latency period before their effect could be measured. High-performance liquid chromatography showed no hydrolysis of thiocellobiose when incubated in the presence of S. commune extracellular enzymes.     

Chlamydospores of Schizophyllum commune

Summary The detection of chlamydospores of Schizophyllum commune in liquid medium is described. The short thick walled cells are formed by intercalary septation which leads also to modification of the septal complex. The chemical composition of the cell walls of chlamydospores is similar to the composition of the vegetative mycelium.     

裂褶菌化学成分研究

经硅胶反复柱层析,从裂褶菌子实体的醇提物中首次分离得到8个化合物,利用波谱方法及理化性质鉴定为5,α8α-过氧麦角甾-6,22E-二烯-3β-醇(1)、麦角甾-7,22-二烯-3β醇(2)、(22E,24R)-麦角甾-7,22-二烯-3β,5α,6β-三醇(3)、烟酸(4)、苯甲酸(5)、D-阿拉伯糖醇(6)、甘露醇(7)、海藻糖(8)。     

Studies on basidiospore development in Schizophyllum commune.

The time required for synthesis of the spore components and the effect of different environmental conditions on basidiospore production were studied in the basidiomycete Schizophyllum commune. Both exogenous glucose and storage materials were used in the synthesis of spore components, which took 40 to 45 h to complete. A temperature of 30 degrees C, the presence of 5% CO2, a continuous supply of glucose, or a lack of exogenous glucose, had no effect on the rate of spore production. Light, however, was required for sporulation. Darkness inhibited sporulation between karyogamy and the initiation of meiosis: complete inhibition occurred after 48 h in the dark. Spores were produced 5 h after release from dark inhibition.