Your search keyword '"Mucor ultrastructure"' showing total 44 results

1. Functional complementarity of ancient plant-fungal mutualisms: contrasting nitrogen, phosphorus and carbon exchanges between Mucoromycotina and Glomeromycotina fungal symbionts of liverworts.

Author

Field KJ, Bidartondo MI, Rimington WR, Hoysted GA, Beerling D, Cameron DD, Duckett JG, Leake JR, and Pressel S

Subjects

Biomass, Endophytes ultrastructure, Glomeromycota ultrastructure, Linear Models, Mucor ultrastructure, Mycelium metabolism, Carbon metabolism, Glomeromycota physiology, Hepatophyta microbiology, Mucor physiology, Nitrogen metabolism, Phosphorus metabolism, Plants microbiology, Symbiosis

Abstract

Liverworts, which are amongst the earliest divergent plant lineages and important ecosystem pioneers, often form nutritional mutualisms with arbuscular mycorrhiza-forming Glomeromycotina and fine-root endophytic Mucoromycotina fungi, both of which coevolved with early land plants. Some liverworts, in common with many later divergent plants, harbour both fungal groups, suggesting these fungi may complementarily improve plant access to different soil nutrients. We tested this hypothesis by growing liverworts in single and dual fungal partnerships under a modern atmosphere and under 1500 ppm [CO 2 ], as experienced by early land plants. Access to soil nutrients via fungal partners was investigated with 15 N-labelled algal necromass and 33 P orthophosphate. Photosynthate allocation to fungi was traced using 14 CO 2 . Only Mucoromycotina fungal partners provided liverworts with substantial access to algal 15 N, irrespective of atmospheric CO 2 concentration. Both symbionts increased 33 P uptake, but Glomeromycotina were often more effective. Dual partnerships showed complementarity of nutrient pool use and greatest photosynthate allocation to symbiotic fungi. We show there are important functional differences between the plant-fungal symbioses tested, providing new insights into the functional biology of Glomeromycotina and Mucoromycotina fungal groups that form symbioses with plants. This may explain the persistence of the two fungal lineages in symbioses across the evolution of land plants., (© 2019 The Authors. New Phytologist © 2019 New Phytologist Trust.)

Published

2019

2. Fungal networks shape dynamics of bacterial dispersal and community assembly in cheese rind microbiomes.

Author

Zhang Y, Kastman EK, Guasto JS, and Wolfe BE

Subjects

Actinobacteria classification, Actinobacteria genetics, Actinobacteria growth & development, DNA Transposable Elements, Firmicutes classification, Firmicutes genetics, Firmicutes growth & development, Flagella genetics, Flagella ultrastructure, Fungi ultrastructure, High-Throughput Nucleotide Sequencing, Hyphae ultrastructure, Movement physiology, Mucor growth & development, Mucor ultrastructure, Mutation, Penicillium growth & development, Penicillium ultrastructure, Proteobacteria classification, Proteobacteria genetics, Proteobacteria growth & development, Serratia growth & development, Cheese microbiology, DNA, Bacterial genetics, Fungi growth & development, Hyphae growth & development, Microbial Interactions genetics, Microbiota genetics, Serratia genetics

Abstract

Most studies of bacterial motility have examined small-scale (micrometer-centimeter) cell dispersal in monocultures. However, bacteria live in multispecies communities, where interactions with other microbes may inhibit or facilitate dispersal. Here, we demonstrate that motile bacteria in cheese rind microbiomes use physical networks created by filamentous fungi for dispersal, and that these interactions can shape microbial community structure. Serratia proteamaculans and other motile cheese rind bacteria disperse on fungal networks by swimming in the liquid layers formed on fungal hyphae. RNA-sequencing, transposon mutagenesis, and comparative genomics identify potential genetic mechanisms, including flagella-mediated motility, that control bacterial dispersal on hyphae. By manipulating fungal networks in experimental communities, we demonstrate that fungal-mediated bacterial dispersal can shift cheese rind microbiome composition by promoting the growth of motile over non-motile community members. Our single-cell to whole-community systems approach highlights the interactive dynamics of bacterial motility in multispecies microbiomes.

Published

2018

3. The influence of the mating type on virulence of Mucor irregularis.

Author

Xu W, Liang G, Peng J, Long Z, Li D, Fu M, Wang Q, Shen Y, Lv G, Mei H, Tsui CKM, and Liu W

Subjects

Animals, Biomarkers, Cytokines metabolism, Dermis microbiology, Dermis pathology, Gene Order, Immunophenotyping, Mice, Mucor ultrastructure, Mucormycosis immunology, Promoter Regions, Genetic, Sequence Analysis, DNA, T-Lymphocyte Subsets immunology, T-Lymphocyte Subsets metabolism, Genes, Mating Type, Fungal, Mucor physiology, Mucormycosis microbiology, Virulence genetics

Abstract

Mucor irregularis is an emerging fungal pathogen that cause cutaneous infection and could cause death. However, little is known about its mechanism of pathogenesis. There is evidence suggesting virulence vary with mating types in fungi, including the Mucorales. Here, we characterized the mating type locus of M. irregularis and the mating type ratio of 17 clinical isolates in China. Genomic data indicated M. irregularis is heterothallic having two mating types - bearing either SexP or SexM allele. Also, we employed a mice model to study the inflammation and pathological effects of different mating types. The comparison of the inflammatory response, cytokine profiles and Th-1, Th-2 and Th-17 cells numbers in each mating type treated mice showed that the severity and disease progress were enhanced in (+) mating type treated mice. One (+/0) mutant strain, with multiple mutations at the mating locus, had defects in sexual mating ability but appeared to be more virulent than the (-) mating type. Although (+) mating type appeared to be more virulent, most of our clinical isolates presented belonged to (-) mating type. Our findings support the involvement of MAT genes in sexual fertility, and the influence of mating type on the severity of cutaneous infection.

Published

2017

4. Allergen of the month--mucor.

Author

Weber RW

Subjects

Allergens chemistry, Antigens, Fungal chemistry, Humans, Mucor chemistry, Mucor ultrastructure, Mucormycosis immunology, Spores, Fungal chemistry, Spores, Fungal immunology, Allergens immunology, Antigens, Fungal immunology, Mucor immunology

Published

2015

5. [Effect of biological factors on morphogenesis, growth, and lipid composition of fungus Mucor hiemalis mycelium].

Author

Mysiakina IS, Sergeeva IaÉ, Ivashechkin AA, and Feofilova EP

Subjects

Aerobiosis, Arachidonic Acid metabolism, Biological Factors metabolism, Cell Membrane drug effects, Cell Membrane metabolism, Cell Wall drug effects, Cell Wall metabolism, Culture Media, Endoplasmic Reticulum drug effects, Endoplasmic Reticulum metabolism, Glucose metabolism, Linoleic Acid metabolism, Lipid Metabolism drug effects, Microscopy, Electron, Mucor metabolism, Mucor ultrastructure, Mycelium metabolism, Mycelium ultrastructure, Phosphatidylcholines metabolism, Phosphatidylethanolamines metabolism, Spores, Fungal metabolism, Spores, Fungal ultrastructure, Trehalose metabolism, Triglycerides metabolism, gamma-Linolenic Acid metabolism, Antifungal Agents pharmacology, Biological Factors pharmacology, Itraconazole pharmacology, Mucor drug effects, Mycelium drug effects, Spores, Fungal drug effects, Trehalose pharmacology, Triglycerides pharmacology

Published

2012

6. The effects of palm oil breakdown products on lipid turnover and morphology of fungi.

Author

Leeuw NJ, Swart CW, Joseph M, Pohl CH, van Wyk PW, Coetsee E, Swart HC, Hugo A, and Kock JL

Subjects

Biomass, Cryptococcus growth & development, Cryptococcus ultrastructure, Hydrogen-Ion Concentration, Mucor growth & development, Mucor ultrastructure, Palm Oil, Triglycerides metabolism, Triglycerides pharmacology, Cryptococcus metabolism, Lipid Metabolism, Mucor metabolism, Plant Oils metabolism

Abstract

The oleaginous fungi Cryptococcus curvatus and Mucor circinelloides were used to determine the effect of palm oil breakdown products, measured as polymerized triglycerides (PTGs), on lipid turnover and on fungal growth and morphology. In M. circinelloides, we found after 7 days of growth, a decrease in biomass and in lipid utilization and accumulation at increased PTG levels, both at low and neutral pH. In C. curvatus, there was also a decrease in lipid utilization and biomass production at increased PTG levels, at both low and neutral pH. However, an increase in oil accumulation was observed at low pH while it remained similar at neutral pH for all PTG levels tested. Hairy and warty protuberances on the cell surface were observed when C. curvatus was grown on oils with 15% and 45% PTGs, respectively. Using nano scanning Auger microscopy, we found no evidence to suggest a difference in elemental composition of the surfaces of the warty protuberances compared with the rest of the cell wall surface. We conclude that the warty protuberances are outgrowths of cell walls and that the changes observed in lipid turnover in both fungi are due to the presence of palm oil breakdown products.

Published

2010

7. Fermentation process improvement of a Chinese traditional food: soybean residue cake.

Author

Yao Y, Pan S, Wang K, and Xu X

Subjects

Chemical Phenomena, China, Food Handling methods, Food-Processing Industry economics, Formaldehyde metabolism, Functional Food economics, Hardness, Hyphae ultrastructure, Industrial Waste analysis, Industrial Waste economics, Mucor classification, Mucor isolation & purification, Mucor ultrastructure, Mycological Typing Techniques, Pigmentation, Plant Proteins, Dietary chemistry, Plant Proteins, Dietary metabolism, Soy Foods economics, Soybean Proteins chemistry, Soybean Proteins metabolism, Sporangia ultrastructure, Surface Properties, Time Factors, Fermentation, Functional Food analysis, Functional Food microbiology, Mucor metabolism, Soy Foods analysis, Soy Foods microbiology

Abstract

Unlabelled: Fermentation process improvement of soybean residue cake, a Chinese traditional fermented food, and its physicochemical analysis during fermentation were studied. One of the dominant strains in the fermentation was isolated and identified as Mucor racemosus Fresenius. The fermentation process was improved by subsection fermentation. The crude protein content decreased from 19.95 ± 0.03% in the raw soybean residue to 16.85 ± 0.10% in the fermented products, and the formaldehyde nitrogen content increased from 0.068 ± 0.004% to 0.461 ± 0.022% in final fermented cakes. Hardness of samples significantly (P < 0.05) increased whereas springiness, cohesiveness, and resilience significantly (P < 0.05) decreased with increasing fermentation time, respectively. Microstructure observations showed obvious change of the surface of cake samples during the fermentation process., Practical Application: During the soybean processing, it will produce plenty of by-products, and the most part of them is soybean residue. The discarded soybean residue causes economic loss. Fortunately, we can obtain nutritious and delicious fermented soybean residue cakes by fermenting soybean residue as raw material.

Published

2010

8. Determination of glucosamine and N-acetyl glucosamine in fungal cell walls.

Author

Zamani A, Jeihanipour A, Edebo L, Niklasson C, and Taherzadeh MJ

Subjects

Hydrolysis, Mucor ultrastructure, Rhizomucor ultrastructure, Rhizopus ultrastructure, Sulfuric Acids, Acetylglucosamine analysis, Cell Wall chemistry, Fungi ultrastructure, Glucosamine analysis

Abstract

A new method was developed to determine glucosamine (GlcN) and N-acetyl glucosamine (GlcNAc) in materials containing chitin and chitosan, such as fungal cell walls. It is based on two steps of hydrolysis with (i) concentrated sulfuric acid at low temperature and (ii) dilute sulfuric acid at high temperature, followed by one-step degradation with nitrous acid. In this process, chitin and chitosan are converted into anhydromannose and acetic acid. Anhydromannose represents the sum of GlcN and GlcNAc, whereas acetic acid is a marker for GlcNAc only. The method showed recovery of 90.1% of chitin and 85.7-92.4% of chitosan from commercial preparations. Furthermore, alkali insoluble material (AIM) from biomass of three strains of zygomycetes, Rhizopus oryzae, Mucor indicus, and Rhizomucor pusillus, was analyzed by this method. The glucosamine contents of AIM from R. oryzae and M. indicus were almost constant (41.7 +/- 2.2% and 42.0 +/- 1.7%, respectively), while in R. pusillus, it decreased from 40.0 to 30.0% during cultivation from 1 to 6 days. The GlcNAc content of AIM from R. oryzae and R. pusillus increased from 24.9 to 31.0% and from 36.3 to 50.8%, respectively, in 6 days, while it remained almost constant during the cultivation of M. indicus (23.5 +/- 0.8%).

Published

2008

9. [Activity of NAD-dependent isocitrate dehydrogenase, isocitrate lyase, and malate dehydrogenase in Mucor circinelloides var. lusitanicus INMI under different modes of nitrogen supply].

Author

Mysiakina IS and Funtikova NS

Subjects

Culture Media, Fatty Acids biosynthesis, Mucor growth & development, Mucor ultrastructure, Mycelium enzymology, Mycelium growth & development, Mycelium ultrastructure, Urea metabolism, gamma-Linolenic Acid biosynthesis, Fungal Proteins metabolism, Isocitrate Dehydrogenase metabolism, Isocitrate Lyase metabolism, Lipogenesis, Malate Dehydrogenase metabolism, Mucor enzymology, Nitrogen metabolism

Abstract

The growth and morphology as well as lipogenesis and activity of the enzymes of the tricarboxylic acid cycle and the glyoxylate cycle were studied in the fungus Mucor circinelloides var. lusitanicus INMI grown at various concentrations of urea (nitrogen source) added to the medium in different modes. It was shown that the maximum lipid content in the biomass was observed at a low (0.5 g/l) concentration of the nitrogen source, whereas the highest content of gamma-linolenic acid in the lipids was detected at high (up to 4.0 g/l) concentrations of the nitrogen source. It was found that, when the feed-batch mode of nitrogen supply was used, the amount of gamma-linolenic acid in total fatty acids was higher (up to 35%) than in the case of a single administration of the same amount of nitrogen source to the medium. The differences in the fatty acid composition and the unsaturation degree of the lipids from different subcellular fractions were demonstrated. The mycelium from the culture grown after a single administration of the nitrogen source was deformed to a great extent. The activities of the TCA cycle enzymes, NAD-dependent isocitrate dehydrogenase (IDH), and malate dehydrogenase (MDH) were lower than in the case of the feed-batch mode of urea addition, whereas the activity of isocitrate lyase (ICL), the key enzyme of the glyoxylate cycle, was higher. The coupling of the cell metabolism and the lipid composition of fungal cells and the process of cell differentiation in fungi depending on the conditions of nitrogen supply is discussed.

Published

2008

10. Mutants defective in a Mucor circinelloides dicer-like gene are not compromised in siRNA silencing but display developmental defects.

Author

Nicolás FE, de Haro JP, Torres-Martínez S, and Ruiz-Vázquez RM

Subjects

Base Sequence, Cloning, Molecular, Fungal Proteins genetics, Hyphae genetics, Hyphae ultrastructure, Molecular Sequence Data, Mucor ultrastructure, Mutation, RNA, Small Interfering genetics, RNA, Small Interfering pharmacology, Ribonuclease III antagonists & inhibitors, Ribonuclease III genetics, Fungal Proteins physiology, Genes, Fungal physiology, Hyphae growth & development, Mucor genetics, Mucor growth & development, RNA Interference, Ribonuclease III physiology

Abstract

Dicer proteins are ribonuclease III enzymes that process double stranded RNA precursors into small RNAs categorized as small interfering RNAs (siRNAs) or microRNAs (miRNAs), which suppress gene expression through the RNA silencing mechanism. We have isolated a dicer-like gene (dcl-1) of Mucor circinelloides, the first gene of this family to be identified in zygomycetes. The dcl-1 mRNA occurred in multiple forms, including the truncated molecules that result from premature polyadenylation. Null dcl-1 mutants were not impaired as regards transgene-induced gene silencing, since they exhibited the same silencing frequency as the wild-type strain and accumulated the two size classes of siRNA associated with RNA silencing in M. circinelloides. However, dcl-1 mutants showed a reduced growth rate and a hyphal growth alteration, which suggests that the dcl-1 gene has some role in the control of endogenous functions.

Published

2007

11. Mucor circinelloides was identified by molecular methods as a cause of primary cutaneous zygomycosis.

Author

Iwen PC, Sigler L, Noel RK, and Freifeld AG

Subjects

Aged, 80 and over, DNA, Fungal analysis, DNA, Fungal isolation & purification, Dermatomycoses diagnosis, Humans, Male, Molecular Sequence Data, Mucor genetics, Mucor ultrastructure, Mucormycosis diagnosis, Mycological Typing Techniques, Phenotype, Polymerase Chain Reaction methods, Sequence Analysis, DNA, Dermatomycoses microbiology, Mucor classification, Mucor isolation & purification, Mucormycosis microbiology

Abstract

A case of primary cutaneous zygomycosis caused by Mucor circinelloides is described. Histopathology showed typical hyphae along with chlamydospores. The isolate was identified by molecular and phenotypic methods. The utility of sequence analysis of the internal transcribed spacer region is highlighted; however, further studies are needed to assess species genetic heterogeneity.

Published

2007

12. Mucor rouxii ultrastructure: cyclic AMP and actin cytoskeleton.

Author

Pereyra E, Ingerfeld M, Anderson N, Jackson SL, and Moreno S

Subjects

Bridged Bicyclo Compounds, Heterocyclic pharmacology, Bucladesine pharmacology, Cyclic AMP analogs & derivatives, Cyclic AMP-Dependent Protein Kinases metabolism, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Microscopy, Fluorescence methods, Mucor metabolism, Mucor ultrastructure, Thiazolidines pharmacology, Actins metabolism, Cyclic AMP pharmacology, Cytoskeleton metabolism, Mucor drug effects

Abstract

A comparative analysis of the effect of two compounds, dibutyryl-cyclic-AMP (dbcAMP) and latrunculin B, on the morphology and ultrastructure of the dimorphic fungus Mucor rouxii under aerobic growth conditions is presented. dbcAMP acts through the sustained activation of protein kinase A, and latrunculin B through the disruption of the actin cytoskeleton. Upon addition of these compounds to the growth medium at any stage of the germination process, cells lost polarised growth and switched to isodiametric growth. The effect was reversible. The morphologies, visualised by light microscopy or scanning electron microscopy (SEM), were alike. A switch from a rough to a smooth surface was observed by SEM when cells were repolarised by removal of the added compound. Ultrastructural changes under both conditions, as observed by transmission electron microscopy, were similar, the main feature being the enlargement of the cell wall, with irregular depositions, and detachment from the cell membrane. dbcAMP-treated cells showed a decrease in the number of glycogen granules compared with control and latrunculin B-treated cells. F-actin staining with fluorescein isothiocyanate-phalloidin showed that both dbcAMP- and latrunculin B-treated cells displayed a much lower fluorescence than control cells, with only a few pale plaques. The results suggest that the sustained activation of protein kinase A, which impairs polarised growth, might exert its effect through a modification of actin cytoskeleton organisation, very probably also involving an integrinlike pathway, as judged by the cell wall detachment and loss of cell adhesiveness of the dbcAMP-treated isodiametric cells.

Published

2006

13. Biodegradation of benzo[a]pyrene in soil by Mucor sp. SF06 and Bacillus sp. SB02 co-immobilized on vermiculite.

Author

Su D, Li PJ, Frank S, and Xiong XZ

Subjects

Adsorption, Aluminum Silicates, Bacillus ultrastructure, Biodegradation, Environmental, Chromatography, High Pressure Liquid, Kinetics, Microscopy, Electron, Scanning, Mucor ultrastructure, Bacillus metabolism, Benzo(a)pyrene metabolism, Mucor metabolism, Soil Pollutants metabolism

Abstract

Two indigenous microorganisms, Bacillus sp. SB02 and Mucor sp. SF06, capable of degrading polycyclic aromatic hydrocarbons (PAHs) were co-immobilized on vermiculite by physical adsorption and used to degrade benzo[a] pyrene (BaP). The characteristics of BaP degradation by both free and co-immobilized microorganism were then investigated and compared. The removal rate using the immobilized bacterial-fungal mixed consortium was higher than that of the freely mobile mixed consortium. 95.3% of BaP was degraded using the co-immobilized system within 42 d, which was remarkably higher than the removal rate of that by the free strains. The optimal amount of inoculated co-immobilized system for BaP degradation was 2%. The immobilized bacterial-fungal mixed consortium also showed better water stability than the free strains. Kinetics of BaP biodegradation by co-immobilized SF06 and SB02 were also studied. The results demonstrated that BaP degradation could be well described by a zero-order reaction rate equation when the initial BaP concentration was in the range of 10-200 mg/kg. The scanning electronic microscope (SEM) analysis showed that the co-immobilized microstructure was suitable for the growth of SF06 and SB02. The mass transmission process of co-immobilized system in soil is discussed. The results demonstrate the potential for employing the bacterial-fungal mixed consortium, co-immobilized on vermiculite, for in situ bioremediation of BaP.

Published

2006

14. Morphology and physiology of the dimorphic fungus Mucor circinelloides (syn. M. racemosus) during anaerobic growth.

Author

Lübbehüsen TL, Nielsen J, and McIntyre M

Subjects

Anaerobiosis, Carbon Dioxide, Culture Media, Ergosterol metabolism, Fermentation, Image Processing, Computer-Assisted, Microscopy, Video, Mucor ultrastructure, Nitrogen, Polysorbates metabolism, Mucor growth & development, Mucor physiology

Abstract

The dimorphic Mucor circinelloides requires an anaerobic atmosphere and the presence of 30% CO2 to grow as a multipolar budding yeast, otherwise hyphal growth predominates. Establishing other means to control the morphology would be a distinct advantage in the development of a fermentation process for this organism for the production of heterologous proteins. Thus, conditions suppressing polarised growth while at the same time abolishing the CO2 requirement were investigated in submerged cultivations. It was found that supplementing cultures with mixtures of ergosterol and Tween 80 resulted in yeast-like growth under 100% N2. Their impact on growth and morphological development was assessed at a range of concentrations. Maximum biomass levels and the specific growth rate decreased at elevated levels of ergosterol and Tween 80. Possible effects of carbon dioxide and the added fatty acid/sterol mixture on supporting yeast growth by influencing the fluidity of the plasma membrane or affecting polarised growth are discussed.

Published

2003

15. Characterization of the Mucor circinelloides life cycle by on-line image analysis.

Author

Lübbehüsen TL, Nielsen J, and McIntyre M

Subjects

Cell Nucleus ultrastructure, Culture Media, Dose-Response Relationship, Drug, Glucose pharmacology, Image Processing, Computer-Assisted methods, Microscopy, Fluorescence, Mucor drug effects, Mucor ultrastructure, Spores, Fungal growth & development, Temperature, Xylose pharmacology, Mucor growth & development

Abstract

Aims: The life cycle of the dimorphic fungus Mucor circinelloides was studied in a temperature-controlled flow-through cell, which constitutes an ideal tool when following the development of individual cells, with a view to understanding the growth and differentiation processes occurring in and between the different morphological forms of the organism., Methods and Results: Mycelial growth and the transformation of hyphae into chains of arthrospores were characterized by image analysis techniques and described quantitatively. The influence of the nature (glucose and xylose) and concentration of the carbon source on specific growth rate and hyphal growth unit length were studied. The organism branched more profusely on xylose than on glucose while the specific growth rates determined were rather similar. Methods were developed to study the yeast-like growth phase of M. circinelloides in the flow-through cell, and combined with fluorescent microscopy which allowed new insights to bud formation. Additionally, numbers and distribution of nuclei in arthrospores, hyphae and yeasts were studied., Conclusions: The results give essential information on the morphological development of the organism., Significance and Impact of Study: Development of any industrial process utilizing this organism will be dependent on the information obtained here for effective process optimization.

Published

2003

16. Biological interaction between soil fungi and Toxocara canis eggs.

Author

Ciarmela ML, Minvielle MC, Lori G, and Basualdo JA

Subjects

Animals, Argentina, Dogs, Fusarium ultrastructure, Microscopy, Electron, Scanning, Mucor ultrastructure, Ovum microbiology, Ovum ultrastructure, Toxocara canis growth & development, Toxocara canis ultrastructure, Fusarium physiology, Mucor physiology, Soil Microbiology, Toxocara canis microbiology

Abstract

Fungi from the soil of public areas in La Plata, Argentina were isolated and evaluated for their biological interaction with Toxocara canis eggs in vitro. We isolated and identified two fungal species: Fusarium pallidoroseum and Mucor hiemalis. Each species was co-cultured with T. canis eggs in sterile distilled water. The samples were observed by light and scanning electron microscopy (SEM) at days 4, 7 and 14 post-inoculation. Under the conditions of our experiments, F. pallidoroseum exhibited a high ovicidal activity on T. canis eggs, whereas M. hiemalis exhibited no such effects.

Published

2002

17. Structural and functional definition of the human chitinase chitin-binding domain.

Author

Tjoelker LW, Gosting L, Frey S, Hunter CL, Trong HL, Steiner B, Brammer H, and Gray PW

Subjects

Amino Acid Sequence, Binding Sites, Candida albicans chemistry, Candida albicans ultrastructure, Cell Wall chemistry, Cell Wall ultrastructure, Chitinases genetics, Cysteine metabolism, Fungi, Humans, Hydrolysis, Molecular Sequence Data, Mucor chemistry, Mucor ultrastructure, Point Mutation, Protein Binding, Recombinant Proteins metabolism, Substrate Specificity, Trisaccharides chemistry, Trisaccharides metabolism, Chitin metabolism, Chitinases metabolism

Abstract

Mammalian chitinase, a chitinolytic enzyme expressed by macrophages, has been detected in atherosclerotic plaques and is elevated in blood and tissues of guinea pigs infected with Aspergillus. Its normal physiological function is unknown. To understand how the enzyme interacts with its substrate, we have characterized the chitin-binding domain. The C-terminal 49 amino acids make up the minimal sequence required for chitin binding activity. The absence of this domain does not affect the ability of the enzyme to hydrolyze the soluble substrate, triacetylchitotriose, but abolishes hydrolysis of insoluble chitin. Within the minimal chitin-binding domain are six cysteines; mutation of any one of these to serine results in complete loss of chitin binding activity. Analysis of purified recombinant chitin-binding domain revealed the presence of three disulfide linkages. The recombinant domain binds specifically to chitin but does not bind chitosan, cellulose, xylan, beta-1, 3-glucan, beta-1,3-1,4-glucan, or mannan. Fluorescently tagged chitin-binding domain was used to demonstrate chitin-specific binding to Saccharomyces cerevisiae, Candida albicans, Mucor rouxii, and Neurospora crassa. These experiments define structural features of the minimal domain of human chitinase required for both specifically binding to and hydrolyzing insoluble chitin and demonstrate relevant binding within the context of the fungal cell wall.

Published

2000

18. Stimulation of hyphal growth in anaerobic cultures of Mucor rouxii by extracellular trehalose. Relevance of cell wall-bound activity of acid trehalase for trehalose utilization.

Author

Lucio AK, Polizeli ML, Jorge JA, and Terenzi HF

Subjects

Anaerobiosis, Culture Media, Enzyme Induction, Glucose metabolism, Mucor metabolism, Mucor ultrastructure, Cell Wall enzymology, Mucor growth & development, Trehalase metabolism, Trehalose metabolism

Abstract

In fungi, the hydrolysis of extracellular trehalose is carried out by acid trehalases. These secretory glycoproteins may be more abundant either in the vacuolar compartment, like in yeast, or at the cell surface, such as in many filamentous fungi. The relative efficiency of these two compartments for the utilization of extracellular trehalose was investigated using as a model the dimorphic fungus Mucor rouxii, which produces yeast-like cells under a CO(2) atmosphere, or hyphae in the presence of air. Under CO(2), cultures supplemented with glucose produced yeast-like cells devoid of acid trehalase activity. On the other hand, trehalose-supplemented cultures developed hyphae exhibiting cell wall-bound and intracellular acid trehalase activity. Glucose-grown yeast-like cells supplemented with trehalose after glucose exhaustion, induced intracellular activity of acid trehalase, but no activity was detected at the cell surface. Even endowed of significant intracellular activity of acid trehalase, these cells did not grow further. When exposed to air these yeast-like produced germ tubes exhibiting cell wall-bound acid trehalase activity. These results suggest that the utilization of extracellular trehalose as a source of carbon for growth requires the localization of acid trehalase activity at the cell surface. Our results also show that extracellular trehalose elicits a morphogenetic phenomenon, inducing the formation of hyphae which are the physiological support for acid trehalase activity.

Published

2000

19. Contact-sensing by hyphae of dermatophytic and saprophytic fungi.

Author

Perera TH, Gregory DW, Marshall D, and Gow NA

Subjects

Arthrodermataceae pathogenicity, Arthrodermataceae ultrastructure, Epidermophyton physiology, Humans, Microscopy, Electron, Scanning, Microsporum physiology, Mucor pathogenicity, Mucor ultrastructure, Neurospora crassa pathogenicity, Neurospora crassa ultrastructure, Trichophyton physiology, Arthrodermataceae physiology, Mucor physiology, Neurospora crassa physiology

Abstract

Contact-sensing or thigmotropism is the directional growth response of cells in relation to topographical guidance cues. Thigmotropism is thought to play a major role in the location of infectable sites on plants by phytopathogenic fungi and has recently been shown to be a property of hyphae in the human pathogenic fungus Candida albicans. Here we show that hyphae of the dermatophytes Epidermophyton floccosum, Microsporum canis and Trichophyton mentagrophytes reorientate their direction of growth in response to grooves and pores of membrane substrata as did hyphae of the saprophytes Mucor mucedo and Neurospora crassa. This suggests that the thigmotropic behaviour of hyphae is not a specific property of pathogens, but rather a general feature of the growth of fungal hyphae that must forage for nutrients on surfaces and within solid materials.

Published

1997

20. The arrangement of F-actin and microtubules during germination of Mucor rouxii sporangiospores.

Author

Hasek J and Bartnicki-Garcia S

Subjects

Microscopy, Fluorescence, Spores, Fungal, Actins ultrastructure, Microtubules ultrastructure, Mucor physiology, Mucor ultrastructure

Abstract

The distribution of F-actin microfilaments and microtubules was analyzed in germinating sporangiospores of Mucor rouxii by labeling with rhodamine-tagged phalloidin and by immunofluorescence microscopy. The transition from isodiametrical to apical growth was accompanied by a switch from uniform distribution of F-actin patches to a polarized accumulation of F-actin material at the germ tube tips. Immunoblotting of cell-free extracts of M. rouxii with a monoclonal anti-porcine alpha-tubulin antibody (TU-01) disclosed two discrete bands of alpha-tubulin suggesting the existence of two alpha-tubulin genes in this fungus. Immunofluorescence microscopy of germinating cells stained with the same antibody revealed an elaborate network of cytoplasmic microtubules that persisted during the entire germination process and extended into the apex of the germ tube. Although their precise roles remain undetermined, the observed arrangement of cytoskeletal elements during germination is consistent with their presumed involvement in cell wall morphogenesis: the long axial microtubules serving as long-distance conveyors of wall-building vesicles to the apical region while the concentrated F-actin patches mark the participation of microfilaments in the zone of intense vesicle exocytosis at the hyphal apex.

Published

1994

21. Advantages of environmental scanning electron microscopy in studies of microorganisms.

Author

Collins SP, Pope RK, Scheetz RW, Ray RI, Wagner PA, and Little BJ

Subjects

Animals, Aspergillus ultrastructure, Chlorophyta ultrastructure, Euglena gracilis ultrastructure, Mucor ultrastructure, Eukaryota ultrastructure, Fungi ultrastructure, Microscopy, Electron, Scanning methods

Abstract

Microorganisms, including bacteria, fungi, protozoa, and microalgae, are composed predominantly of water which prohibits direct observation in a traditional scanning electron microscope (SEM). Preparation for SEM requires that microorganisms be fixed, frozen or dehydrated, and coated with a conductive film before observation in a high vacuum environment. Sample preparation may mechanically disturb delicate samples, compromise morphological information, and introduce other artifacts. The environmental scanning electron microscope (ESEM) provides a technology for imaging hydrated or dehydrated biological samples with minimal manipulation and without the need for conductive coatings. Sporulating cultures of three fungi, Aspergillus sp., Cunninghamella sp., and Mucor sp., were imaged in the ESEM to assess usefulness of the instrument in the direct observation of delicate, uncoated, biological specimens. Asexual sporophores showed no evidence of conidial displacement or disruption of sporangia. Uncoated algal cells of Euglena gracilis and Spirogyra sp. were examined using the backscatter electron detector (BSE) and the environmental secondary electron detector (ESD) of the ESEM. BSE images had more clearly defined intracellular structures, whereas ESD gave a clearer view of the surface E. gracilis cells fixed with potassium permanganate, Spirogyra sp. stained with Lugol's solution, and Saprolegnia sp. fixed with osmium tetroxide were compared using BSE and ESD to demonstrate that cellular details could be enhanced by the introduction of heavy metals. The effect of cellular water on signal quality was evaluated by comparing hydrated to critical point dried specimens.

Published

1993

22. [Characterization fo mycelial mutants of Mucor rouxii].

Author

Sabanero M, Hernández A, Martínez G, and Gutiérrez F

Subjects

Drug Resistance, Microbial genetics, Fungal Proteins biosynthesis, Fungal Proteins genetics, Methylnitronitrosoguanidine, Molecular Weight, Mucor drug effects, Mucor growth & development, Mucor ultrastructure, Mutagenesis, Phenotype, Trifluoperazine pharmacology, Mucor genetics

Abstract

The consequences of two different mutations induced with N-methyl-N-nitrosoguanidine (Strain G1) and Trifluoperazine resistance (Strain G5) in Mucor rouxii, were studied. Mutants were stable and exhibited mycelial morphology in aerobiosis. Mutants cells exhibit phenotypic characteristics of slow-growing. The mutants G1 and G5 cultures showed 16.8% and 35.3% of reduction of the growth relative to parental strain. Morphologically mycelia of mutants cell were indistinguishable from wild-type cells, except from reduction in extension and branching of hyphal that has the mutant G5. Calcofluor and FITC-Concanavalin A were used to study the distribution of new cell-wall polymers i.e. Chitin, glucans. The two G1 and G5 strains showed a uniform distribution of fluorescence over the cell surface, indicating that active deposition of new-wall material has occurred. Cellular proteins of mutants and parental strains were labeled with 14C-aminoacid mixture. The proteins pattern revealed that the majority of polypeptides synthesized by parental strain were also synthesized by mutants. It is evident the synthesis preferential of peptides with apparent M(r) > 92K, 60K, 50K, 43K, 38K and 25K. These results indicated that the primary defect of the mutation was not on cellular differentiation. It discuss phenotypic and biochemistry characteristics from mutants.

Published

1992

23. A complex chitinolytic system in exponentially growing mycelium of Mucor rouxii: properties and function.

Author

Rast DM, Horsch M, Furter R, and Gooday GW

Subjects

Acetylglucosaminidase metabolism, Chitin Synthase metabolism, Chitinases antagonists & inhibitors, Chitinases metabolism, Chromatography, Gel, Chromatography, Ion Exchange, Hydrogen-Ion Concentration, Kinetics, Mucor enzymology, Mucor ultrastructure, Chitin metabolism, Mucor growth & development

Abstract

Enzymological evidence has been sought for the purported involvement of chitinolysis in vegetative growth of filamentous fungi. A procedure has been developed for the production of fast growing and morphologically homogeneous exponential phase mycelium of the non-septate dimorphic zygomycete Mucor rouxii. A partially purified extract of this material has been subjected to gel-permeation chromatography and the chitinolytic activity of eluate fractions has been assessed using colloidal and nascent chitin and 3,4-dinitrophenyl tetra-N-acetylchitotetraoside [3,4-DNP-(GlcNAc)4] as substrates. Exponentially growing (td = 1.1 h) mycelium consisting of single short-branched hyphae contains at least seven chitinases. The two particulate ones have not been studied in detail. The soluble chitinases hydrolyse (pseudo)chito-oligomers by random cleavage of internal beta-1,4-bonds (and not by processing) and have a minimum chain-length requirement of n = 4. They are clearly distinct from beta-N-acetylglucosaminidase (beta-GlcNAc'ase) with respect to their chromatographic behaviour, substrate chain-length specificity, inhibition by chitobionolactone oxime (Ki = 175 microM), and non-inhibition by the specific beta-GlcNAc'ase inhibitor N-acetylglucosaminono-1,5-lactone oxime. Their pH optima are similar (6.5-7.0), and all can hydrolyse 3,4-DNP-(GlcNAc)4 as well as nascent chitin. With respect to their charge, response to protease treatment, behaviour upon gel-permeation chromatography and ability to use colloidal chitin as a substrate, the soluble chitinases do, however, represent two distinct groups. Type A chitinases are acidic, display partial latency, show an unusual affinity to dextran gel and act weakly on colloidal chitin. Type B chitinases are basic (or neutral) and non-zymogenic, do not behave anomalously upon gel filtration and can degrade performed chitin. An hypothesis is presented for the function of the complex chitinolytic system of the fungal hypha in branching and, possibly, also in apical growth.

Published

1991

24. Unexpected destruction of chitosomal chitin synthetase by an endogenous protease during sucrose density gradient purification.

Author

Kamada T, Bracker CE, Lippman E, and Bartnicki-Garcia S

Subjects

Centrifugation, Isopycnic, Endopeptidases metabolism, Mucor ultrastructure, Organelles enzymology, Organelles ultrastructure, Chitin Synthase isolation & purification, Mucor enzymology

Abstract

Because of their intrinsic low buoyant density, chitosomes can be separated from crude cell homogenates (1000 g or 35,000 g supernatants) of Mucor rouxii by isopycnic sedimentation in sucrose density gradients. To accelerate and simplify the isolation of chitosomes, we centrifuged the cell-free extracts at ultrahigh speed (in a fixed-angle rotor at forces up to 311,000 g Rav) and found that the duration of centrifugation was critical. Prolonged centrifugation at ultrahigh speed caused severe distortion of the chitin synthetase profile in the gradient as the peak of chitosomal chitin synthetase nearly disappeared. We traced the problem to a soluble protease(s) that moved into the chitosome band during protracted centrifugation and destroyed the chitin synthetase activity. The interfering protease was a soluble protein with a sedimentation coefficient of 4.6 S and a pH optimum of 7-7.5, and it was sensitive to PMSF (phenylmethylsulfonyl fluoride), indicating that it was a serine protease. Unlike other proteases, it destroyed chitin synthetase but did not activate the chitin synthetase zymogen. The interfering protease could be eliminated either by adding PMSF to the cells immediately after breakage or by removing the upper part of the sucrose gradient midway through the centrifugation of the cell-free extract and then completing the sedimentation with the 'decapitated' gradient.

Published

1991

25. Chitosomes and chitin synthetase in the asexual life cycle of Mucor rouxii: spores, mycelium and yeast cells.

Author

Kamada T, Bracker CE, and Bartnicki-Garcia S

Subjects

Aerobiosis, Microscopy, Electron, Mucor enzymology, Mucor ultrastructure, Organelles enzymology, Organelles ultrastructure, Spores, Fungal enzymology, Spores, Fungal physiology, Spores, Fungal ultrastructure, Chitin Synthase metabolism, Mucor growth & development

Abstract

To help understand the subcellular machinery responsible for cell wall formation in a fungus, we determined the abundance and subcellular distribution of chitin synthetase (chitin synthase, EC 2.4.1.16) and chitosomes in the asexual life cycle of Mucor rouxii. Cell-free extracts of ungerminated sporangiospores, hyphae/mycelium in exponential and stationary phase, and yeast cells were fractionated by isopycnic centrifugation in sucrose density gradients. The total amount of chitin synthetase per cell increased exponentially during aerobic germination of spores. In all developmental stages, the profile of chitin synthetase activity encompassed a broad range of sucrose density (d = 1.12-1.22) with two distinct zones: a low-density chitosome zone (d = approx. 1.12-1.16) and a high-density, mixed-membrane zone (d = approx. 1.16-1.22). Chitosomes were a major reservoir of chitin synthetase in all stages of the life cycle, including ungerminated spores. Two kinds of chitin synthetase profiles were recognized and correlated with the growth state. In nongrowing cells (ungerminated sporangiospores and stationary-phase mycelium), the profile was skewed toward lower densities with a sharp chitosome peak at d = 1.12-1.13. In actively growing cultures (aerobic mycelium or anaerobic yeast cells), the entire profile of chitin synthetase was displaced toward higher densities; the average buoyant density of chitosomes was higher (d = 1.14-1.16), and more chitin synthetase was associated with denser (d = 1.16-1.23) membrane fractions. In all life cycle stages, chitosomal chitin synthetase was almost completely zymogenic. In contrast to the enzyme from spores or from growing cells, samples of chitosomal chitin synthetase from stationary-phase mycelium were unstable and contained a high proportion of larger vesicles in addition to the typical microvesicles. The presence of chitosomes in ungerminated spores indicates that these cells are poised to begin synthesizing somatic (= vegetative) cell walls at the onset of germination. The increased buoyant density of chitosomes in actively growing cultures suggests that the composition of these microvesicles changes significantly as they mobilize chitin synthetase to the cell surface.

Published

1991

26. Growth-rate-dependent adjustment of ribosome function in chemostat-grown cells of the fungus Mucor racemosus.

Author

Ross JF and Orlowski M

Subjects

Carbon Dioxide, Fungal Proteins metabolism, Kinetics, Mucor growth & development, Mucor ultrastructure, Nitrogen, Mucor physiology, Peptide Chain Elongation, Translational, Ribosomes physiology

Abstract

The dimorphic fungus Mucor racemosus was grown as a yeast in a chemostat. Cellular growth rates were varied over a fourfold range under an atmosphere of N2 and over an eightfold range under CO2. Under either atmosphere, an increase in the cellular growth rate resulted in increases in (i) the cellular ribosome concentration, (ii) the percentage of ribosomes active in protein synthesis, and (iii) the rate of polypeptide chain elongation. The rate of protein synthesis in this organism can therefore be regulated by adjustment of all of these mechanisms.

Published

1982

27. Formation and ultrastructure of Mucor rouxii arthrospores.

Author

Barrera CR

Subjects

Microscopy, Electron, Microscopy, Electron, Scanning, Mucor ultrastructure, Spores, Fungal ultrastructure

Abstract

The formation of arthrospores in Mucor rouxii was studied by transmission and scanning electron microscopy and light microscopy. The arthrospores formed in a random manner in terminal and internal regions of the hyphae. The earliest appearance of the arthrospores was seen by scanning electron microscopy as compartments delineated by double ridges. These ridges probably corresponded to the site of septal wall formation. The elongated compartments varied considerably in size. As the arthrospores matured, they tended to separate as a result of a gradual change in the shape of the arthrospores to a nearly spherical form and also as the result of simultaneous degradation of the outermost cell wall layer. The mature arthrospores were surrounded by a complex cell wall consisting of at least three distinct layers in addition to the original hyphal cell wall. Crystal-like structures were seen in the cytoplasm of some of the arthrospores in addition to the usual organelles such as mitochondria, nuclei, and ribosomes. Septum formation by centripetal cell wall growth from the lateral hyphal wall was documented by transmission electron microscopy. However, evidence was also found which suggested that not all internal cell wall development in the fungal hyphae during arthrosporogenesis necessarily led to the formation of mature arthrospores.

Published

1983

28. The evolution of the mitotic spindle.

Author

Kubai DF

Subjects

Animals, Apicomplexa ultrastructure, Cell Nucleus ultrastructure, Chromosomes physiology, Ciliophora ultrastructure, Dinoflagellida ultrastructure, Euglena gracilis ultrastructure, Membranes physiology, Microtubules ultrastructure, Models, Biological, Movement, Mucor ultrastructure, Organoids, Phycomyces ultrastructure, Species Specificity, Biological Evolution, Eukaryota ultrastructure, Fungi ultrastructure, Microtubules physiology, Mitosis

Published

1975

29. Properties of chitin synthetase in isolated chitosomes from yeast cells of Mucor rouxii.

Author

Ruiz-Herrera J, Lopez-Romero E, and Bartnicki-Garcia S

Subjects

Acetylglucosamine pharmacology, Cations, Divalent, Chitin metabolism, Chitin Synthase antagonists & inhibitors, Chitin Synthase isolation & purification, Enzyme Activation, Enzyme Precursors isolation & purification, Hydrogen-Ion Concentration, Kinetics, Molecular Weight, Mucor ultrastructure, Peptide Hydrolases metabolism, Protein Binding, Temperature, Uracil Nucleotides pharmacology, Chitin Synthase metabolism, Hexosyltransferases metabolism, Mucor enzymology

Abstract

Chitin synthetase was isolated and purified 120-fold from the supernatant fraction (54,500 X g) of broken yeast cells of Mucor rouxii. The purified preparations consisted mainly of chitin synthetase particles (chitosomes) with an average size larger than 7 X 10(6) daltons (by gel filtration) and an average sedimentation coefficient of 105 S. The samples also contained other enzyme complexes (fatty acid synthetase, pyruvate dehydrogenase, and, depending on method, ribosomes). Nearly all of the chitosomal chitin synthetase occurred in a zymogenic form that required proteolytic activation. In most properties, the chitosomal enzyme was similar to crude enzyme (54,000 X g sediment): kinetics, activation by proteases, response to metals, stimulation by N-acetylglucosamine, and inhibition by polyoxin or UDP. One mamor difference was the much greater stability of the chitosomal chitin synthetase zymogen against spontaneous activation and destruction. Product (chitin microfibril) and enzyme (chitin synthetase) remained associated in a complex that was readily separated by centrifugation.

Published

1977

30. [Effect of pentachloronitrobenzene (PCNB) on the ultrastructure of Mucor mucedo and Phytophthora cactorum].

Author

Casperson G and Lyr H

Subjects

Microscopy, Electron, Mucor ultrastructure, Organoids drug effects, Organoids ultrastructure, Phytophthora ultrastructure, Species Specificity, Fungi drug effects, Fungicides, Industrial pharmacology, Mucor drug effects, Nitrobenzenes pharmacology, Phytophthora drug effects

Abstract

The effect of PCNB in various concentrations on the ultrastructure of Mucor mucedo and phytophthora cactorum was analyzed after an incubation period of 2 hours. The most striking effect in both fungi was a diffuse lysis of the internal structure of the mitochondria which differs markedly from the lysis induced by etridiazol (terrazol). Moreover an enlargement of the perinuclear space and an increased formation of vacuoles was observed. In Mucor mucedo, but not in Phytophthora cactorum a pathological thickening of the cell wall was observed. Although after 2 hours incubation with PCNB Phytophthora gave similar ultrastructural reactions in the mitochondria as Mucor, in growth experiments on agar dishes this species was 5-10 times less sensitive to PCNB compared to Mucor.

Published

1982

31. Microfibril assembly by granules of chitin synthetase.

Author

Ruiz-Herrera J, Sing VO, Van der Woude WJ, and Bartnicki-Garcia S

Subjects

Cell-Free System, Centrifugation, Density Gradient, Cytoplasmic Granules enzymology, Cytoplasmic Granules ultrastructure, Membranes enzymology, Microscopy, Electron, Mucor ultrastructure, Solubility, Cell Wall physiology, Chitin Synthase metabolism, Hexosyltransferases metabolism, Mucor enzymology

Abstract

Purified preparations of chitin synthetase (EC 2.4.1.16; UDP-2-acetamido-2-deoxy-D-glucose:chitin 4-beta-acetamidodeoxyglucosyltransferase), capable of forming microfibrils in vitro, were isolated from yeast cells of Mucor rouxii. Chitin synthetase was obtained either by substrate-induced liberation of bound enzyme (54,000 x g pellet) or by isolation of unbound enzyme present in the 54,000 x g supernatant of a cell-free extract. Both preparations contained ellipsoidal granules from about 350 to 1000 A diameter. Many granules exhibited a marked depression. No typical unit membrane profiles appeared in thin sections of glutaraldehyde/OsO4-fixed samples. Upon incubation with substrate and activators, chitin microfibrils were produced. The microfibrils were often found intimately associated with granules. The most common configurations were: a microfibril with a granule at one end, or two microfibrils "arising" from the same granule. These findings lend support to the granule hypothesis for the elaboration of cell wall microfibrils by end-synthesis.

Published

1975

32. [Effect of terrazol on the ultrastructure of Mucor mucedo].

Author

Casperson G and Lyr H

Subjects

Cell Membrane drug effects, Cell Membrane ultrastructure, Cell Nucleus drug effects, Cell Nucleus ultrastructure, Cell Wall drug effects, Cell Wall ultrastructure, Mitochondria drug effects, Mitochondria ultrastructure, Mucor drug effects, Mucor growth & development, Antifungal Agents pharmacology, Mucor ultrastructure, Thiadiazoles pharmacology

Abstract

Terrazol, a systemic fungicide showing high specifity to oomycetes, inhibits the apical growth of hyphae and promotes at lower concentrations the thickening of the cell wall in Mucor mucedo. As revealed by ultrastructural analysis, particularly the fine structure of some membrane systems is influenced. In the first place the inner membrane of the mitochondria is attacked leading to a complete lysis of mitochondria. However, the sensitivities within a given population are different. The plasmalemma enlarges, forms several invaginations, partly redraws from the cell wall, but remains intact. Only after an extensive treatment with relatively high concentrations of terrazol the nuclear envelope shows vesicles between the double membranes. The mechanism of action of terrazol is discussed.

Published

1975

33. [Virus-like particles (VLP) in the nucleus of Mucor spec. 1M].

Author

Fischer W and Ude J

Subjects

Cell Nucleus microbiology, Cell Nucleus ultrastructure, Microscopy, Electron, Plant Viruses ultrastructure, Inclusion Bodies, Viral ultrastructure, Mucor ultrastructure, Plant Viruses isolation & purification

Published

1979

34. Structure and transformation of chitin synthetase particles (chitosomes) during microfibril synthesis in vitro.

Author

Bracker CE, Ruiz-Herrera J, and Bartnicki-Garcia S

Subjects

Chitin biosynthesis, Microscopy, Electron, Mucor enzymology, Mucor metabolism, Chitin Synthase metabolism, Hexosyltransferases metabolism, Mucor ultrastructure

Abstract

The fine structure of isolated chitin synthetase (UDP-2-acetamido-2-deoxy-D-glucose:chitin 4-beta-acetamido-deoxyglucosyltransferase; EC 2-4-1-16) particles (chitosomes) from Mucor rouxii and the elaboration of chitin microfibrils were studied by electron microscopy. Chitosomes are spheroidal, but often polymorphic, structures, mostly 40-70 nm in diameter. Their appearance after negative staining varies. Some reveal internal granular structure enclosed by a shell measuring 6-12 nm thick; others do not show internal structure but have a pronounced depression of the external surface. In thin sections, isolated chitosomes appear as microvesicular structures with a tripartite shell 6.5-7.0 nm thick. Morphologically similar structures can be seen in intact cells of M. rouxii. Isolated chitosomes undergo a seemingly irreversible series of transformations when substrate and activators are added. The internal structure changes, and a coiled microfibril (fibroid) appears inside the chitosome. The shell of the chitosome is opened or shed, and an extended microfibril arises from the fibroid particle. During prolonged incubation, the fibroid coils become less common and extended microfibrils appear thicker. We regard the chitosome as the cytoplasmic container and conveyor of chitin synthetase en route to its destination at the cell surface. Isolated chitosomes are well suited for integrated ultrastructural-biochemical studies of microfibril biogenesis in vitro.

Published

1976

35. Stabilization of chitin synthetase and purification of chitosomes from several mycelial Mucorales.

Author

Martinez-Cadena G, Lopez-Romero E, Acosta I, Gonzales C, and Ruiz-Herrera J

Subjects

Centrifugation, Density Gradient, Chitin Synthase isolation & purification, Chromatography, Gel, Microscopy, Electron, Mucor ultrastructure, Mucorales ultrastructure, Phycomyces ultrastructure, Sucrose metabolism, Chitin Synthase metabolism, Glucosyltransferases metabolism, Mucor enzymology, Mucorales enzymology, Organoids ultrastructure, Phycomyces enzymology

Abstract

Stability of chitin synthetase in cell-free extracts from mycelial fungi was markedly improved by the presence of sucrose in the homogenization media. Breakage of mycelium in sucrose-containing buffer yielded enzyme preparations from which chitosomal chitin synthetase could be purified by a procedure involving ammonium sulfate precipitation, gel filtration and centrifugation in sucrose density gradients. Purified chitosomes catalyzed the synthesis of chitin microfibrils in vitro upon incubation with substrate and activators. Chitosomal chitin synthetase from the filamentous form of M. rouxii was similar to the enzyme from yeast cells, except for the poorer stability and diminished sensitivity to GlcNAc activation of the former.

Published

1987

36. Localization of Chitin synthase in Mucor rouxii by an autoradiographic method.

Author

Sentandreu R, Martinez-Ramon A, and Ruiz-Herrera J

Subjects

Autoradiography, Chitin Synthase antagonists & inhibitors, Cytoplasm enzymology, Cytoplasm ultrastructure, Microscopy, Electron, Mucor ultrastructure, Peptide Hydrolases pharmacology, Chitin Synthase analysis, Glucosyltransferases analysis, Mucor enzymology

Abstract

The localization of chitin synthase in the cells of Mucor rouxii was studied by a method which combined permeabilization of the cells with toluene/ethanol and incubation with the radioactive substrate UDP-[3H]GlcNAc followed by high resolution autoradiography. By this technique it was demonstrated that most of the chitin synthesized by these cells was located within the cytoplasm, and only a small amount of the enzyme product appeared at the cell surface. It was concluded that most of the chitin synthase of M. rouxii is located in the cytoplasm of the cells.

Published

1984

37. Anomalous cell wall synthesis in Mucor mucedo (L.) Fres. induced by some fungicides and other compounds related to the problem of dimorphism.

Author

Lyr H and Casperson G

Subjects

Cell Nucleus drug effects, Cell Nucleus ultrastructure, Cell Wall drug effects, Cell Wall metabolism, Cell Wall ultrastructure, Microscopy, Electron, Mitochondria drug effects, Mitochondria ultrastructure, Mucor metabolism, Mucor ultrastructure, Antifungal Agents pharmacology, Fungicides, Industrial pharmacology, Mucor drug effects

Abstract

An anomalous cell wall thickening in Mucor mucedo is induced already within 60-120 min by some fungicides (etridiazol, chloroneb, pentachloronitrobenzene, dicloran, drazoxolon, biphenyl) as well as with a N2-atmosphere or high concentrations of glucose, but not with 2,4-dinitrophenol, chlorinated phenols, dichlofluanid and antimycin A. This effect seems to be identical to the change from the mycelial (M-) to the yeast (Y-) form in dimorphic fungi, which can be achieved by culture conditions as well as by addition of chemicals. The cause seems to be a specific, complex change in the metabolic state. A scheme of regulation is presented which explains most of the experimental results described till now.

Published

1982

38. Role of membranes of mycelial Mucor rouxii in synthesis and secretion of cell wall matrix polymers.

Author

Dow JM, Carreon RR, and Villa VD

Subjects

Cell Wall metabolism, Molecular Weight, Mucor ultrastructure, Glycoproteins metabolism, Intracellular Membranes physiology, Mucor metabolism, Polymers metabolism, Uronic Acids metabolism

Abstract

Membrane fractions of the mycelial form of Mucor rouxii contained endogenous polyuronides and glycoproteins with sugar compositions similar to the cell wall polyuronide (mucoran) and extracellular (wall and filtrate) glycoproteins, respectively. The polyuronide pool was rapidly labeled with D-[U-14C]glucose and on pulse-chase experiments appeared to turn over, suggesting that these polymers were precursors of the wall mucoran. In contrast, the glycoproteins appeared to accumulate. Although the membrane-associated glycoproteins had molecular weights similar to those of the extracellular glycoproteins, the bulk of the membrane-associated polyuronides were of a molecular weight lower than that of the wall polyuronide.

Published

1981

39. Induced azygospore formation in Mucor (Rhizomucor) pusillus by Absidia corymbifera.

Author

Schipper MA

Subjects

Mucor ultrastructure, Mucorales ultrastructure, Fungi metabolism, Mucor metabolism, Mucorales metabolism, Spores, Fungal metabolism

Published

1976

40. [Mechanism of action of terrazol].

Author

Lyr H, Laussmann B, and Casperson G

Subjects

Cell Membrane ultrastructure, Cell Wall ultrastructure, Fungal Proteins biosynthesis, Lipids biosynthesis, Mitochondria ultrastructure, Mucor metabolism, Mucor ultrastructure, Oxygen Consumption, Fungicides, Industrial, Mucor drug effects, Thiadiazoles pharmacology

Abstract

Higher concentrations of terrazol inhibit the growth of a large number of fungi, but oomycetes are most sensitive. At medium concentrations (ED50 = 10 ppm) in Mucor mucedor several alterations of ultrastructure are recognizable even after short incubation periods. Significant observations are vacuolization of the mitochondrial cristae, invagination of the cytoplasmic membrane, and thickening of the cell wall. Later on, numerous vacuoles in the cytoplasm are visible. Primary effects on the cell membrane (destructive effect), on O2-consumption, on fermentation, or on nucleic acid synthesis could not be demonstrated. Lipid synthesis under the influence of terrazol showed characteristic changes. The synthesis of triglycerides and sterolesters was inhibited while the synthesis of free fatty acids and phospholipids was stimulated. Addition of lipids, vitamines, amino acids, or nucleic acids did not counteract the effect of terrazol. Further investigations are necessary to elucidate the primary mechanism of action.

Published

1975

41. [Mode of action of terrazoleon Mucor mucedo].

Author

Lyr H, Casperson G, and Laussmann B

Subjects

Cell Wall, Enzyme Activation, Mitochondria drug effects, Mitochondria enzymology, Mucor enzymology, Mucor growth & development, Mucor ultrastructure, Phospholipases metabolism, Antifungal Agents pharmacology, Mucor drug effects, Thiadiazoles pharmacology

Abstract

It is assumed that the fungistatic effect of terrazol in Mucor mucedo is induced by a liberation of phospholipases within within the mitochondria and perhaps at other membranes. In isolated mitochondria a rapid formation of lysolecithin can be demonstrated at low concentrations of terrazol. This would explain the lytic symptoms in mitochondria visible by electron microscopy. Lipid peroxidation could not be demonstrated. The only antidots at present known for the growth inhibiting effect of terrazol and on its ultrastructural effects are impure saccharose, which seems to contain an unknown factor, and procain hydrochloride or to a lesser extent lidocain, which are well-known inhibitors of phospholipases. The pathological thickening of the cell wall induced by terazol seems to be an unspecific side effect reflecting a diminished phosphorylating activity of the mitochondria.

Published

1977

42. Dissociation of chitosomes by digitonin into 16 S subunits with chitin synthetase activity.

Author

Ruiz-Herrera J, Bartnicki-Garcia S, and Bracker CE

Subjects

Centrifugation, Density Gradient, Chitin biosynthesis, Chitin Synthase isolation & purification, Microscopy, Electron, Molecular Conformation drug effects, Mucor ultrastructure, Chitin Synthase metabolism, Digitonin pharmacology, Glucosyltransferases metabolism, Mucor metabolism

Abstract

Digitonin exerts profound effects on chitosomes (microvesicular structures with chitin synthetase activity isolated from the fungus Mucor rouxii). At low concentrations, it stimulates chitin synthetase (UDP-2-acetamido-2-deoxy-D-glucose: chitin 4-beta acetamidodeoxy-D-glucosyltransferase, EC 2.4.1.16) activity; at higher concentrations, it inhibits it. Digitonin also causes disintegration of the chitosome and the release of a homogeneous population of chitosome subunits with chitin synthetase activity. These chitosome subunits have a sedimentation coefficient of 16 S, compared to 105 S for whole chitosomes, as determined by centrifugation in sucrose density gradients, and measure 7--12 nm in diameter. After dissociation, chitin synthetase remains in a zymogenic state, and requires treatment with a protease for activation. No change in sedimentation coefficient of chitosome subunits was observed after proteolytic activation. The product synthesized by the chitosome subunits was characterized by X-ray diffractometry ad alpha-chitin and was by the criterion indistinfuishable from chitin made by preparations of undissociated chitosomes. However, in the electron microscope, the chitin microfibrils made from chitosome subunits were, in general, much shorter than those produced by undissociated chitosomes and often exhibited a needle-like appearance.

Published

1980

43. Studies on cyclic adenosine 3' ,5'-monophosphate levels, Adenylate cyclase and phosphodiesterase activities in the dimorphic fungus Mucor rouxii.

Author

Paveto C, Epstein A, and Passeron S

Subjects

Bucladesine pharmacology, Cyclic AMP pharmacology, Mucor drug effects, Mucor ultrastructure, Subcellular Fractions enzymology, Time Factors, 3',5'-Cyclic-AMP Phosphodiesterases metabolism, Adenylyl Cyclases metabolism, Cyclic AMP metabolism, Mucor enzymology, Phosphoric Diester Hydrolases metabolism

Published

1975

44. [Effect of 2-ethyl-2-ene-1-al and analogous compounds on the growth and ultrastructure of fungi].

Author

Casperson G, Banasiak L, Lyr H, and Sunkel M

Subjects

Acetates pharmacology, Alcohols pharmacology, Aspergillus flavus drug effects, Aspergillus flavus growth & development, Caproates pharmacology, Carbonates pharmacology, Cladosporium drug effects, Cladosporium growth & development, Fungi growth & development, Fungi ultrastructure, Fusarium drug effects, Fusarium growth & development, Hexanols pharmacology, Microscopy, Electron, Mucor growth & development, Mucor ultrastructure, Penicillium drug effects, Penicillium growth & development, Rhizopus drug effects, Rhizopus growth & development, Aldehydes pharmacology, Antifungal Agents pharmacology, Fungi drug effects, Mucor drug effects

Abstract

Analogs of the natural substance (E)-hex-2-en-1-al which occurs naturally in green plants and is known to have microbiocidal properties were synthesized and studied with respect to their antifungal properties. Saturated and unsaturated aldehydes, alcohols, carbon acids and enolacetate were tested against various fungi by applying these compounds either over the gaseous phase or in suspension. The following ranking was observed on the basis of fungicidal activity: enolacetate of 2-ethylhex-2-enoic acid greater than 2-ethylhex-2-en-1-al greater than 2-ethylhex-2-en-1-al greater than 2-ethylhex-2-en-1-ol. Saturated analogs showed the same order of activity as the unsaturated ones, however, they were less efficient. The effects on the ultrastructural changes were analyzed in Mucor mucedo exposed to concentrations of the analogs that inhibited growth. Main effects were observed on mitochondrial and nuclear membranes. The kind of destruction caused by enolacetate of 2-ethylhex-2-en-1-al differed from the other substances tested. Aspects of the mode of action are discussed.

Published

1986