The relative amount of extracellular polymer which remains about Azotobacter vinelandii, Zoogloea ramigera, Klebsiella pneumoniae, and Diplococcus pneumoniae after critical-point drying was studied by electron microscopy. The results obtained with this technique are compared to those obtained with methods that illustrate extracellular polymer, such as freeze-etching and ruthenium red staining. Comparative results indicate critical-point drying to be a rapid, reliable method for the determination of capsule-like polymer surrounding bacterial cells. In addition, critical-point drying can be used to observe morphogenetic changes, such as vesicle production. 相似文献
Pyruvate dehydrogenase complex (pyruvate : lipoate oxidoreductase (decarboxylating and acceptor-acetylating), EC 1.2.4.1), from pig heart, was studied by spray freeze etching and negative staining. From freeze etching experiments an average particle weight of 7-10(6) was estimated. Negative staining after glutaraldehyde fixation and freeze etching of unfixed and prefixed enzyme solutions yielded no significant difference in particle dimensions: the majority of the isometric complex molecules measured approximately 400 A in diameter. Tantalum tungsten shadowed freeze etch replicas indicated that the surface of the complex is built up of globular units. The relative positions of these units are in good agreement with the model still under discussion. 相似文献
Elucidation of the ultrastructural organization of actin networks is crucial for understanding the molecular mechanisms underlying actin-based motility. Results obtained from cytoskeletons and actin comets prepared by the critical-point procedure, followed by rotary shadowing, support recent models incorporating actin filament branching as a main feature of lamellipodia and pathogen propulsion. Since actin branches were not evident in earlier images obtained by negative staining, we explored how these differences arise. Accordingly, we have followed the structural fate of dense networks of pure actin filaments subjected to steps of the critical-point drying protocol. The filament networks have been visualized in parallel by both cryo-electron microscopy and negative staining. Our results demonstrate the selective creation of branches and other artificial structures in pure F-actin networks by the critical-point procedure and challenge the reliability of this method for preserving the detailed organization of actin assemblies that drive motility. 相似文献
The cytoplasmic ground substance of cultured cells prepared for high voltage transmission electron microscopy (glutaraldehyde/osmium fixed, alcohol or acetone dehydrated, critical-point dried) consists of slender (3-6 nm Diam) strands--the microtrabeculae (55)--that form an irregular three-dimensional lattice (the microtrabecular lattice). The microtrabeculae interconnect the membranous and nonmembranous organelles and are confluent with the cortices of the cytoplast. The lattice is found in all portions of the cytoplast of all cultured cells examined. The possibility that the lattice structure is an artifact of specimen preparation has been tested by (a) subjecting whole cultured cells (WI-38, NRK, chick embryo fibroblasts) to various chemical (aldehydes, osmium tetroxide) and nonchemical (freezing) fixation schedules, (b) examination of model systems (erythrocytes, protein solutions), (c) substantiating the relaibility of critical-point drying, and (d) comparing images of whole cells with conventionally prepared (plastic-embedded) cells. The lattice structure is preserved by chemical and nonchemical fixation, though alterations in ultrastructure can occur especially after prolonged exposure to osmium tetroxide. The critical-point method for drying specimens appears to be reliable as is the freeze-drying method. The discrepancies between images of plastic-embedded and sectioned cells, and images of whole, critical-point dried cells appear to be related, in part, to the electron-scattering properties of the embedding resin. The described observations indicate that the microtrabecular lattice seen in electron micrographs closely represents the nonrandom structure of the cytoplasmic ground substance of living cultured cells. 相似文献
The morphology and arrangement of pili in the P++ colony phenotype of Neisseria gonorrhoeae were examined by a variety of electron microscopic techniques. The apparent structure and organization of gonococcal pili varied depending upon the method of specimen preparation. Pili as thin, individual, unbranched structures were demonstrated by negative staining and in sections of epoxy-embedded specimens. Pili forming thick structures which branch, subdivide, and rejoin to form an irregular lattice were demonstrated in specimens processed by the critical-point drying method and by rapid freezing and low temperature sublimination. We propose that in gonococcal colonies of the P++ phenotype, pili exist as individual threadlike structures only on the bacterial surfaces; as the pili leave the bacterial surfaces, they form thick bundles which branch, subdivide, and rejoin to form a supporting framework interconnecting the colony members. This arrangement of pili is usually disrupted by the commonly used method of negative staining and cannot be clearly detected within epoxy-embedded specimens. These data are summarized in a model depicting the organization of pili in the P++ colony phenotype of N. gonorrhoeae. 相似文献
Aims: To investigate the effects of the medium and cryoprotective agents used on the growth and survival of Lactobacillus plantarum and Lactobacillus rhamnosus GG during freeze drying. Methods and Results: A complex medium was developed consisting primarily of glucose, yeast extract and vegetable-derived peptone. Trehalose, sucrose and sorbitol were examined for their ability to protect the cells during freeze drying. Using standardized amount of cells and the optimized freeze drying media, the effect of the growth medium on cell survival during freeze drying was investigated. The results showed that glucose and yeast extract were the most important growth factors, while sucrose offered better protection than trehalose and sorbitol during freeze drying. When the cells were grown under carbon limiting conditions, their survival during freeze drying was significantly decreased. Conclusions: A clear relationship was observed between cell growth and the ability of the cells to survive during the freeze drying process. Significance and Impact of the Study: The survival of probiotic strains during freeze drying was shown to be dependent on the cryoprotectant used and the growth medium. 相似文献
Scanning electron microscopy was used to examine cryofracture surfaces of ventricular myocardium from glutaraldehyde fixed rat and rabbit hearts subjected to intravascular injection of polymerizing acrylic resin. This allowed simultaneous observation of morphological features of cardiac muscle cells and the functional state of their associated small blood vessels. Because the resin injected to identify capillaries accessible to flow might be soluble in commonly used tissue dehydrating agents, alternative preparation methods using the cryoprotectants dimethylsulfoxide (DMSO) and glycerol were investigated. Provided a high performance backscattered electron detector and simple environmental cell were used to abolish specimen charging and circumvent potential instrument contamination, immersion in 2.82 M DMSO for 12 hr prior to cryofracture and freeze-drying gave the best results. The SEM appearance of specimens dehydrated in this way differed little from that of specimens prepared by ethanol dehydration and freeze-drying or by acetone dehydration and critical-point drying. Tissue shrinkage was 26.5 +/- 9.4%, comparable to that found after standard methods using solvent dehydration and critical-point drying. 相似文献
Scanning electron microscopy was used to examine cryofracture surfaces of ventricular myocardium from glutaraldehyde fixed rat and rabbit hearts subjected to intravascular injection of polymerizing acrylic resin. This allowed simultaneous observation of morphological features of cardiac muscle cells and the functional state of their associated small blood vessels. Because the resin injected to identify capillaries accessible to flow might be soluble in commonly used tissue dehydrating agents, alternative preparation methods using the cryoprotectants dimethylsulfoxide (DMSO) and glycerol were investigated. Provided a high performance backscattered electron detector and simple environmental cell were used to abolish specimen charging and circumvent potential instrument contamination, immersion in 2.82 M DMSO for 12 hr prior to cryofracture and freeze-drying gave the best results. The SEM appearance of specimens dehydrated in this way differed little from that of specimens prepared by ethanol dehydration and freeze-drying or by acetone dehydration and critical-point drying. Tissue shrinkage was 26.5 ± 9.4%, comparable to that found after standard methods using solvent dehydration and critical-point drying. 相似文献
The polyethylene glycol (PEG) method for immunofluorescence localization of cytoskeletal antigens has been extended to the ultrastructural level using glutaraldehyde-fixed tissues and immunogold staining. Semithin sections of fixed tissue embedded in polyethylene glycol are divested of the PEG, exposed to purified antibodies (e.g., antiactin, antitubulin) and anti-IgG-colloidal gold. The sections may be processed by dehydration and critical-point drying, or reembedment in hydrophilic substances. Tubulin is demonstrated in the mitotic spindles of dividing spermatogonia, manchettes, axonemes and centrioles of developing spermatids, and in the Sertoli cell cytoplasm; actin localization is demonstrated in the myoid cells of the tunica propria, and smooth muscle cells of arterioles in the interstitial tissue. The results demonstrate the applicability and versatility of PEG embedding for immunocytochemistry. 相似文献
Critical-point drying of microorganisms for scanning electron microscopy can be rapidly and effectively accomplished by use of a newly described specimen holder. Up to eight different samples of spores or vegetative cells are placed between polycarbonate membrane filters in the holder and processed through solvent dehydration and critical-point drying using carbon dioxide without loss or cross contamination of microorganisms. Yeasts, molds, bacteria, and actinomycetes have been successfully processed. 相似文献
AIMS: To investigate the effects of internal trehalose on viability and biocontrol efficacy of antagonistic yeast Cryptococcus laurentii under stresses of low temperature (LT), controlled atmosphere (CA) and freeze drying. METHODS AND RESULTS: The content of trehalose in C. laurentii was increased by culturing the yeast in trehalose-containing medium. Compared with yeast cells with low trehalose level, the yeast cells with high level of internal trehalose not only obtained higher viability, but also showed higher population and better biocontrol efficacy against Penicillium expansum on apple fruit both at 1 degrees C and in CA condition (5% O(2), 5% CO(2), 1 degrees C). After freeze drying, survival of the yeast with high trehalose level was markedly increased when stored at 25 degrees C for 0, 15 and 30 days. Meanwhile, high integrity of plasma membrane was detected in the freeze-dried yeast with high trehalose level by propidium iodide staining. CONCLUSIONS: Induced accumulation of internal trehalose could improve viability and biocontrol efficacy of C. laurentii under stresses of LT and CA. Moreover, survival of the yeast was also increased as internal trehalose accumulation after freeze drying, and one of the reasons might be that trehalose gave an effective protection to plasma membrane. SIGNIFICANCE AND IMPACT OF THE STUDY: The results of this experiment show a promising way to improve the biocontrol performance of antagonistic yeasts under the commercial conditions. 相似文献
The polyethylene glycol (PEG) method for immunofluorescence localization of cytoskeletal antigens has been extended to the ultrastructural level using glutaraldehyde-fixed tissues and immunogold staining. Semithin sections of fixed tissue embedded in polyethylene glycol are divested of the PEG, exposed to purified antibodies (e.g., antiactin, antitubulin) and anti-IgG-colloidal gold. The sections may be processed by dehydration and critical-point drying, or reembedment in hydrophilic substances. Tubulin is demonstrated in the mitotic spindles of dividing spermatogonia, manchettes, axonemes and centrioles of developing spermatids, and in the Sertoli cell cytoplasm; actin localization is demonstrated in the myoid cells of the tunica propria, and smooth muscle cells of arterioles in the interstitial tissue. The results demonstrate the applicability and versatility of PEG embedding for immunocytochemistry. 相似文献
A quick-freeze, rapid-dry method for processing unfixed tissue for electron microscopy has been developed. The technique employs freezing on a cryogenchilled metal surface and drying in a cryosorption vacuum apparatus that allows osmium-vapor fixation and epoxy-resin embedment under high vacuum. Liver, kidney, bone marrow, and monolayer cultures of ventricular myocytes were selected as tissue specimens representing a wide range of physical properties, to demonstrate the practical aspects of achieving good ultrastructural morphology by freeze drying. A comparison was made between freeze drying and conventional processing using aldehyde fixation and alcohol dehydration. The preservation of cellular ultrastructure achieved by freeze drying allowed the identification of specific cell types within each specimen. Membranous organelles were well preserved, surrounded by cytoplasmic ground substance devoid of ice crystal damage. Electron-dense material was observed within the rough endoplasmic reticulum and Golgi cisternae and vesicles of frozen-dried, but not conventionally processed cells. This suggests the preservation by freeze drying of cytoplasmic components otherwise extracted from the cell by solvent exposure. 相似文献
Actinidia deliciosa endosperm-derived callus culture is stable over a long period of culture. This system was used to investigate the ultrastructure of extracellular matrix occurring in morphogenic tissue. Specimens were prepared by different biological techniques (chemical fixation, liquid nitrogen fixation, glycerol substitution, critical-point drying, lyophilization) and observed by scanning electron microscopy (SEM). Fresh and wet samples were analyzed with the use of environmental scanning electron microscopy (ESEM). Extracellular matrix was observed on the surface of cell clusters as a membranous layer or reticulated network, shrunken or wrinkled, depending on the procedure. Generally, shrunken membranous layers with a globular appearance and fibrils were noted after critical-point drying and liquid nitrogen fixation. Smoother surface layers without visible fibrils and showing porosity were typically seen by environmental scanning electron microscopy. Preservation with glycerol substitution caused wrinkled appearance of examined layer. Analysis of fresh samples yielded images closer to their natural state than did critical-point drying or fixation in liquid nitrogen, but it seems best to compare the results of different visualization methods. This is the first report of ESEM observations of plant extracellular matrix and comparison with SEM images from fixed material. 相似文献
Aims: The aim of the present study was to evaluate and compare freezing and freeze‐drying treatments for conserving Rahnella aquatilis (BNM 0523) with the goal to achieve an adequate commercial formulation of this biocontrol agent. Methods and Results: The effect of several protective agents, rehydration media and freezing temperatures on the viability and functional activity of the R. aquatilis was investigated. The storage stability at 3 months and 4 years was determined by checking the viability of the cells and their biocontrol capability against Botrytis cinerea by measuring the percentage of reduction of disease severity on apple. The best results were obtained by the freeze‐drying of the cells using a mixture of skimmed nonfat milk 10%, yeast extract 0·5% and glucose 1% as the protecting and rehydrating medium, and a quickly freezing (?70°C) before the freeze‐drying. In this case, the viability of the cells after 4 years was 98%, and their antagonistic ability showed a little decrease with respect fresh cells. Conclusions: The studies showed that R. aquatilis was resistant to freezing and freeze‐drying when it was used a mixture of cryoprotectants and that it was possible to obtain inoculums with high viability and good effectiveness for reduction of decay caused by B. cinerea. Significance and Impact of the study: This study is probably the first report about the resistance of R. aquatilis to freezing and freeze‐drying treatments and shows that these operations could be useful for obtaining a commercial formulation of this biocontrol agent. 相似文献
The marine pseudomonad D71 (NCMB 2018) ['Spinomonas maritima'] can be induced to produce long tubular surface appendages (spinae) in a growth medium of low osmolarity. In general, spina-carrying cells show these appendages with open distal ends. We examined cultured cells by scanning and transmission electron microscopy, using both critical-point drying and thin sectioning after embedding with agarose protection. By scanning electron microscopy, spinae were observed that connected cells over distances of several micrometers. Ultrathin sections often revealed an additional layer outside the outer membrane, resembling an S-layer. The inner and outer cell membranes were often joined at spina-insertion areas. Furthermore, evidence was found in ultrathin sections for uninterrupted tubes connecting two cells over a distance of up to 7 microns. We propose, therefore, that spinae form the framework for wide open cell clusters; we hypothesize that these spinae might also permit an exchange of cell-to-cell signals. 相似文献
The developmental defects causing cytoplasmic male sterility in Petunia parodii are described in isonuclear fertile, sterile, and fertility-restored plants using both light- and scanning electron microscopy. The aberrant development of the sporogenous tissue and tapetal layer caused by the cytoplasmic male sterile cytoplasm in both Petunia hybrida and P. parodii nuclear backgrounds is similar in onset and progression. The degeneration of the sporogenous tissue and tapetal layer of sterile anthers is first apparent late in meiosis and results in highly abnormal sterile sporogenous tissue by tetrad stage of fertile anthers. The stomium and endothecium do not show major developmental differences between fertile and sterile anthers, but the inner connective tissue of sterile anthers contained calcium crystals not found at high abundance in fertile anthers. Ovoid bodies containing magnesium and phosphorus were seen only in the vascular bundles of fertile anthers. Material prepared for the scanning electron microscope by freeze drying showed better retention of fragile morphological features, while critical-point drying permitted examination of nonvolatile structures, such as cell walls. 相似文献
Evidence is presented that cytoskeletal structures (actin filaments, intermediate filaments, and microtubules) can be resolved by scanning electron microscopy after osmium impregnation of biological material, using thiocarbohydrazide as a ligand, followed by critical-point drying. These different classes of filaments or tubules can be identified both as purified protein polymers and as structured organelles within cryofractured or detergent-extracted cells. 相似文献
Human immunoglobulin G1 Van was studied by negative staining, freeze drying and high resolution shadow casting. The Fab and Fc subunits of an intact IgG1 molecule were shown to possess limited mobility. It was found that about 70% of molecules in the IgG1 Van specimen are not flat but have a tripod-like shape. 相似文献
Dehydration of bacterial cells elicits cellular stress responses in bacteria. Microencapsulation has been used to protect cells against the environmental stress. In this study, Confocal Raman Spectroscopy was used to examine DNA changes in the chemical composition of non‐encapsulated and microencapsulated Lactobacillus rhamnosus GG and the reversibility of these changes upon freeze drying and rehydration. The viability of cells upon freeze drying was also enumerated using culture methods and membrane integrity was measured using BacLight Live/Dead staining. Raman analyses show changes in the spectral features associated with various biochemical compounds, which are interpreted as the result of detrimental freeze drying effects on the bacterial cells. Specifically, analyses based on Principal Components Analysis (PCA) of Raman spectra, confirm that microencapsulation protects cells from environmental stress. The results also reveal a B‐ to A‐like DNA conformation change in dormant cells that provided insights into the extent of reversibility of this transition upon rehydration. The extent of this reversibility is less in non‐encapsulated than in microencapsulated cells. These findings indicate the potential application of Raman spectroscopy in rapid sensing of microbial dehydration stress responses.
下载免费PDF全文