Cytochemical study of catalase activity in Candida boidinii during incubation on methanol

Catalase activity of the methanol-assimilating yeast Candida boidinii M-363 was determined cytochemically and biochemically. Electron microscopic investigations on ultrathin sections were made on cells from 16, 24, and 48h batch cultures in nutrient medium with methanol (or glucose as a control) as the sole source of carbon and energy. The electron-dense oxidation product of 3,3′-diaminobenzidine was found predominantly in the mitochondrial cristae and membranes. The mitochondria were increased in number, enlarged, sometimes aggregated, with variable form and size and they characteristically developed when the strain was grown on methanol. The significant development of these organelles and their intensive DAB staining correlated with the considerable increase in catalase activity. Biochemically, catalase in the cell-free extract was determined to be maximal along the exponential growth phase of the strain during its incubation on methanol. Enzyme analysis of the heavy mitochondrial fraction showed that it possessed catalase activity but not peroxidase activity. The results showed that not only peroxisomes but also mitochondria may be structurally and functionally responsible for the high catalase activity of some methanol-assimilating yeasts. What is more, the contribution of the mitochondria to the utilization of methanol may be significant.     

Acid phosphatase distribution and localization in the fungus Humicola lutea

Acid phosphatase activities in a culture liquid and mycelial extract were studied in submerged cultures of the filamentous fungus Humicola lutea 120-5 in casein-containingmedia with and without inorganic phosphate (Pi). The Pi-repressible influence on the phosphatase formation was demonstrated. Significant changes in the distribution of acid phosphatase between the mycelial extract and culture liquid were observed at the transition of the strain from exponential to stationary phase. Some differences in the cytochemical localization of phosphatase in dependence of Pi in the media and the role of the enzyme in the release of available phosphorus from the phosphoprotein casein for fungal growth were discussed.     

Cytochemical study of catalase activity in Candida boidinii during incubation on methanol

Catalase activity of the methanol-assimilating yeast Candida boidinii M-363 was determined cytochemically and biochemically. Electron microscopic investigations on ultrathin sections were made on cells from 16, 24, and 48h batch cultures in nutrient medium with methanol (or glucose as a control) as the sole source of carbon and energy. The electron-dense oxidation product of 3,3-diaminobenzidine was found predominantly in the mitochondrial cristae and membranes. The mitochondria were increased in number, enlarged, sometimes aggregated, with variable form and size and they characteristically developed when the strain was grown on methanol. The significant development of these organelles and their intensive DAB staining correlated with the considerable increase in catalase activity. Biochemically, catalase in the cell-free extract was determined to be maximal along the exponential growth phase of the strain during its incubation on methanol. Enzyme analysis of the heavy mitochondrial fraction showed that it possessed catalase activity but not peroxidase activity. The results showed that not only peroxisomes but also mitochondria may be structurally and functionally responsible for the high catalase activity of some methanol-assimilating yeasts. What is more, the contribution of the mitochondria to the utilization of methanol may be significant.     

Ultrastructural localization of succinate dehydrogenase in some bacteria, after treatment with Lubrol W1

The localization of succinate dehydrogenase in some gram-negative and gram-positive bacteria (Salmonella typhimurium, Pseudomonas pseudomallei, Pseudomonas aeruginosa and Listeria monocytogenes) treated with the surface membrane active agent, Lubrol W1, was studied by a cytochemical method combined with electron microscopy.     

Ultracytochemical localization of acid phosphatase in Humicola lutea conidia and mycelia

Electron microscopic cytochemical procedures were used to determine the cellular location of acid phosphatase in the fungus Humicola lutea grown in casein-containing medium lacking in mineral orthophosphates. In our investigations acid phosphatase in nongerminating conidia was localized on the outer side of the cell wall, in the cell wall, and on the exterior surface of the plasma membrane. The reaction product of acid phosphatase in germinating conidia was seen in the outer wall layer while in young mycelium on the cell surface and in the exocellular space. The relationship between phosphatase activities localized in the cell wall and their role in the enzymatic degradation of the phosphoprotein casein providing available phosphates for cell growth is discussed.     

Effect of medium composition on the ultrastructure of Lactobacillus strains

The growth of some locally isolated Lactobacillus strains forming D(-) or L(+) lactic acid, Lactobacillus helveticus ATCC 15009 and Lactobacillus delbrueckii subsp. bulgaricus ATCC 11842 was examined in different media. L. helveticus and Lactobacillus LBL strains formed atypical protoplast-like cells in LAPT medium, sensitive to SDS and proteinase. Specific morphological changes in the cell wall structure of these variants were revealed by transmission and scanning electron microscopy. The effect of glucose and various salts on their appearance was investigated. The prevalent role of metal cations, especially of Mg²⁺, was established.