Structure and transformation of chitin synthetase particles (chitosomes) during microfibril synthesis in vitro.
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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. (+info)
Microbiological transformation of enrofloxacin by the fungus Mucor ramannianus.
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Enrofloxacin metabolism by Mucor ramannianus was investigated as a model for the biotransformation of veterinary fluoroquinolones. Cultures grown in sucrose-peptone broth were dosed with enrofloxacin. After 21 days, 22% of the enrofloxacin remained. Three metabolites were identified: enrofloxacin N-oxide (62% of the total absorbance), N-acetylciprofloxacin (8.0%), and desethylene-enrofloxacin (3.5%). (+info)
Threshold level of protein kinase A activity and polarized growth in Mucor rouxii.
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A model system to study the involvement of cAMP-mediated regulation of a cellular process such as hyphal morphogenesis was investigated. Impairment of polarized growth was observed when Mucor rouxii sporangiospores were grown in the presence of N(6)-cAMP analogues and of SQ 65,442, a cAMP phosphodiesterase inhibitor. Together with an effect on isodiametric growth, there was increased pigmentation, increased cell fragility and loss of cell adhesiveness. The total effect on morphology was attained even after adding the compounds shortly before germ-tube emergence; when added after this time growth continued in a non-polarized form and rounding of the germ tip was observed. The morphological effect was observed under all the nutritional and environmental conditions studied (aerobic conditions and defined medium with maltose or glucose, Casamino acids medium with glucose, or rich medium; anaerobic conditions with rich medium; and following a shift from anaerobiosis to aerobiosis). The time of germ-tube emergence, and the size of the cell at this time, was dependent on the growth medium. Protein kinase A (PKA) specific activity was followed during the germination process under three growth conditions. It was found that the total activity of PKA correlated with differentiation and not with growth, and that the total specific activity at the time of germination was the same, independent of the culture medium. The time of germ-tube emergence correlated with the time of attainment of a threshold level of PKA total specific activity. The concentration of dibutyryl-cAMP needed to promote isodiametric growth correlated with the total units of activity of PKA to be activated per cell. It was concluded that PKA is involved in the morphogenetic process of the fungus grown under all the nutritional and ambient conditions tested. (+info)
A bifunctional enzyme with lycopene cyclase and phytoene synthase activities is encoded by the carRP gene of Mucor circinelloides.
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Using functional analyses in Escherichia coli and Mucor circinelloides, it has been shown that a single M. circinelloides gene (carRP) codes for a protein with two different enzymatic activities, lycopene cyclase and phytoene synthase, which are encoded by independent genes in organisms other than fungi. This gene was identified using complementation tests among different classes of carotenoid mutants of M. circinelloides. The carRP gene product contains two domains: the R domain is located at the N-terminus and determines lycopene cyclase activity; the P domain is located at the C-terminus and displays phytoene synthase activity. The R domain is functional even in the absence of the P domain, while the latter needs the proper R domain conformation to carry out its function. The carRP gene is closely linked to the phytoene dehydrogenase (carB) gene, and the promoter regions of both genes are located within only 446 bp. Northern analyses show a co-ordinated regulation of the expression of both genes by blue light. Several motifs found in this promoter region suggest a bi-directional mode of transcription control. (+info)
Detection of fungi in clinical specimens by phase-contrast microscopy.
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During 1973 and 1974, the following fungi were detected in clinical specimens by using phase-contrast microscopy: Blastomyces dermatitidis, 5; Coccidioides immitis, 3; Cryptococcus neoformans, 11; other yeasts 918; dermatophytes, 863; Mucor species, 1; and Aspergillus fumigatus, 16. This technique allows rapid detection and, in many instances, immediate identification of fungi in clinical specimens. (+info)
Deoxyribonucleic acid-dependent ribonucleic acid polymerases in the dimorphic fungus Mucor rouxii.
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Three forms of DNA-dependent RNA polymerase have been separated by chromatography of extracts of yeast-like cells and mycelium of the dimorphic fungus Mucor rouxii. Each of the three eznymes has been purified by means of protamine sulfate precipitation, ion exchange chromatography, affinity chromatography, and velocity sedimentation. Electrophoresis under denaturing conditions showed differences in the subunit compositions of all three purified enzymes. The properties of the enzymes from M. rouxii were similar to those of polymerases from other eukaryotic organisms. Denatured DNA was a better template than native DNA for all three enzymes but each enzyme had a distinct pattern of activities with different templates. Enzymes I and III displayed optimal activity with Mn-2gs the divalent cation and were stimulated significantly by Kcl and (NH4)2S04. Enzyme II had a greater activity with Mg-2gnd was only slightly stimulated by KCl and (NH4)2SO4. None of the enzymes were inhibited by cycloheximide or by rifampicin: all were inhibited by actinomycin C and rifampin AF/018: only enzyme II was inhibited by alpha-amanitin. No differences could be found in the properties of the same enzymes isolated from yeast-like cells or mycelium. (+info)
Invasive mold infections in allogeneic bone marrow transplant recipients.
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Invasive mold infections (IMIs) are an important cause of morbidity and mortality in patients who are undergoing bone marrow transplantation (BMT). To examine the epidemiology, risk factors, and outcome of IMIs in allogeneic BMT recipients, all cases of mold infection among 94 adult patients who underwent allogeneic BMT at this institution from 1 January 1997 through 31 December 1998 were reviewed retrospectively. Fifteen cases of IMI were identified; infection occurred a median of 102 days after BMT. Aspergillus species was the most common cause of disease, and species other than Aspergillus fumigatus were present in 53% of patients. By multivariate analysis, the variable associated with infection risk was systemic glucocorticosteroid use. Prophylactic antifungal therapy that was targeted to high-risk patients had little effect on disease incidence. These observations suggest that early identification of high-risk patients and better approaches to prevention should be explored, to reduce incidence and severity of disease in this population. (+info)
A pre-genetic study of the isoforms of malic enzyme associated with lipid accumulation in Mucor circinelloides.
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The oleaginous fungus Mucor circinelloides possesses at least six isoforms of malic enzyme (EC 1.1.1.40), a key lipogenic enzyme in filamentous fungi. These isoforms were detected using a specific stain for activity after native PAGE of cell extracts. Only one isoform (isoform IV) was associated with lipid accumulation, appearing only after N-exhaustion from the medium (which is a pre-requisite for lipid accumulation) in glucose-growing cells. Isoforms I, II, V and VI were involved in anaerobic growth and only appeared under O(2)-limited conditions. Isoform III appeared to be constitutive and was formed under conditions of active (balanced) growth and is therefore thought to play a crucial role in basic metabolism. Growth on acetate increased the amount of cell lipid (from 25-27% in glucose-grown cells to 37-38% in acetate-grown cells) accumulated by M. circinelloides and this was associated with the appearance of isoform IV of malic enzyme prior to N-exhaustion in these cultures. Amino acid sequence analysis of isoforms III and IV suggests that these two malic enzymes may be encoded by a single gene and that isoform IV is formed from isoform III by post-translational modification initiated by either N-limitation (when glucose was the carbon source) or growth on acetate as the sole carbon source. (+info)