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1.
Effects of fixation with glutaraldehyde (GA), glutaraldehyde-osmium tetroxide (GA-OsO4), and osmium tetroxide (OsO4) on ion and ATP content, cell volume, vital dye staining, and stability to mechanical and thermal stress were studied in Ehrlich ascites tumor cells (EATC). Among variables investigated were fixation time, fixative concentration, temperature, osmolality of the fixative agent and buffer, total osmolality of the fixative solution, osmolality of the postfixation buffer, and time of postfixation treatment in buffer (Sutherland, R. M., et al. 1967. J. Cell Physiol. 69:185.). Rapid loss of potassium, exchangeable magnesium, and ATP, and increase of vital dye uptake and electrical conductivity occurred with all fixatives studied. These changes were virtually immediate with GA-OsO4 or OsO4 but slower with GA (in the latter case they were dependent on fixative temperature and concentration) (Foot, N. C. 1950. In McClung's Handbook of Microscopical Technique. 3rd edition. 564.). Total fixative osmolality had a marked effect on cell volume with OsO4 but little or no effect with GA or GA-OsO4. Osmolality of the buffer had a marked effect on cell volume with OsO4, whereas with GA or GA-OsO4 it was only significant at very hypotonic buffer osmolalities. Concentration of GA had no effect on cell volume. Osmolality of the postfixation buffer had little effect on cell volume, and duration of fixation or postfixation treatment had no effect with all fixatives. Freezing and thawing or centrifugal stress (up to 100,000 g) had little or no effect on cell volume after all fixatives studied. Mechanical stress obtained by sonication showed that OsO4 alone produced poor stabilization and that GA fixation alone produced the greatest stabilization. The results indicate that rapid membrane permeability changes of EATC follow fixative action. The results are consistent with known greater stabilizing effects of GA on model protein systems since cells were also rendered relatively stable to osmotic stress during fixation, an effect not noted with OsO4. After fixation with GA and/or OsO4 cells were stable to osmotic, thermal, or mechanical stress; this is inconsistent with several earlier reports that GA-fixed cells retain their osmotic properties.  相似文献   

2.
To explore the problem of artefacts which may be produced during usual fixation, dehydration, and embedding, the authors have examined pancreas, liver, and bone marrow frozen at about -180°C., dried, at -55 to -60°C., embedded in methacrylate, sectioned, and floated on a formol-alcohol mixture. By these treatments the labile structure of living cells can be fixed promptly and embedded in methacrylate avoiding possible artefacts caused by direct exposure to chemical fixatives. Cell structures are ultimately exposed to a fixative when the sections are floated on formol-alcohol, but at this stage artefacts due to chemical fixation are expected to be minimized, as the fixatives act on structures tightly packed in methacrylate polymer. In the central zone of tissue blocks so treated, the cells are severely damaged by ice crystallization but at the periphery of the blocks the cell structure is well preserved. In such peripherally located cells, elements of the endoplasmic reticulum (ER), Palade's granules, homogeneously dense mitochondria, and nuclear envelopes and pores, can be demonstrated without poststaining with OsO4. The structural organization in the nucleus is distorted by vacuolization. The mitochondrial membranes and cristae, cellular membrane, and the Golgi apparatus, however, are detected only with difficulty. The Golgi region generally appears as a light zone, in which some ambiguous structures are encountered. After staining the sections with OsO4 or Giemsa solution, an inner mitochondrial structure which resembles the cristae seen in conventional OsO4-fixed specimens appears, but the limiting membrane is absent. Treatment with OsO4 or Giemsa solution also renders more distinct the membrane of the ER and Palade's granules but not the Golgi apparatus and cellular membrane. Treatment with ribonuclease results in the disappearance of Palade's granules. On the strength of these observations the authors conclude that OsO4 fixation gives a satisfactory preservation of such cell structures as the nuclear envelope, endoplasmic reticulum, and Palade's granules, though it may induce slight swelling of these cell components.  相似文献   

3.
Osmium tetroxide (OsO4) reacts with the thymine residues of double-stranded DNA, but thymines that are unpaired or under torsional stress are hyperreactive. Although OsO4 hyperreactivity has been primarily utilized to identify Z-DNA structures in supercoiled plasmids, OsO4 will also identify other torsional perturbations of DNA. In this study, OsO4 was used to footprint an AT-rich region (between –780 and –500) of the maizeAdh1 promoter. Hyperreactive sites were identified bothin vitro andin vivo in an area that coincides with AT motifs similar to those found in scaffold attachment regions. Further, the region of OsO4 hyperreactivity lies within a fragment of DNA that is associated with the nuclear scaffold in histone-depleted nuclei.  相似文献   

4.
Summary Electron microscope observations of thin sections of nodules of subterranean clover and barrel medic, after fixation in KMnO4 or OsO4, show that following infection there is a marked increase in the amount of endoplasmic reticulum, in the number of ribosomes, Golgi bodies, mitochondria and proplastids in the host cells.As the infection thread approaches the nucleus, large gaps appear in the nuclear membrane. During the formation of the membrane envelopes around the rhizobia, after their release from the infection thread, the reticulum changes from a predominantly plate-like to a vesicular form. As the bacteroids develop the plastids of the host cells become filled with starch, and become aligned, with the mitochondria, against the cell walls of the host cells. Plastids in noninvaded cells also become starch-filled. Bacteroids and host cells enlarge further and finally the bacterioids occupy most of the cytoplasm of the host cell, except for the nuclear region and vacuole. With OsO4 fixation the nucleoplasm, predominantly fibrillar before infection, with a dense staining nucleolus, becomes packed with dense ribosome-like (150 A° diameter) granules. No such changes occur in the nuclei of non-infected cells. In the proplastids and plastids many small, electron dense particles (60 A° diameter) (phytoferritin?) are observed.  相似文献   

5.
The zona fasciculata of the rat adrenal cortex synthesizes and secretes glucocorticoids. As observed after aldehyde fixation, the cells in this zone contain an extensive endoplasmic reticulum (ER), a small Golgi apparatus, a moderate number of lipid droplets, and abundant mitochondria with tubulovesicular cristae. Numerous areas within the endoplasmic reticulum and mitochondrial cristae appear clear. In addition, a small percentage of mitochondria encompasses large, clear areas. After immersion of finely minced adrenal cortex in unbuffered 2% OsO4 (40–48 hr at 40°C), deposits of osmium are seen within the Golgi apparatus, the entirety of the ER, and occasionally within mitochondria. In some mitochondria, the deposits are within cristae; in others, within vacuoles; in still others, in both cristae and vacuoles. These localizations correspond best to the clear areas found in aldehyde-fixed tissue. Osmium is not deposited in lipid droplets, in bar-containing inclusions, in mitochondrial matrix inclusions, or in the peripheral, outer mitochondrial spaces. Addition of zinc-iodide to OsO4 increases the amount of Golgi apparatus and mitochondrial staining. Adrenocorticotropin (ACTH) does not affect the localization of deposits; hypophysectomy decreases mitochondrial staining. This study (a) emphasizes the necessity for electron microscopic confirmation of osmium localization when this technique is used as a Golgi apparatus stain; and (b) suggests that the ER-staining pattern may be consistent in cells actively synthesizing steroids or steroid-like compounds.  相似文献   

6.
Summary In the present study the cellular fine structure of freeze-substituted sporidia of the phytopathogenic fungusUstilago avenae is investigated by means of thin-section electron microscopy. A conventional embedding method using Spurr's low viscosity resin is compared with the recently developed methacrylate mixtures Lowicryl® K 4 M and HM 20 resin. Generally, freeze-substitution yields improved preservation of fine structural details of the fungus compared to previously applied conventional fixation methods. Using double fixation during freeze-substitution prior to conventional embedding the fungal membrane system (plasmalemma, endoplasmic reticulum), organelles (mitochondria, nucleus etc.) and other cytoplasmic features (ribosomes, cytoskeleton) appear well resolved and smoothly contoured. Aldehyde fixed and Lowicryl embedded sporidia ofU. avenae resemble these double fixed fungal specimens fairly closely. The complete low-temperature preparation produces visualization of distinct cellular details although contrast reversal of cellular membranes (er, mitochondria etc.) is sometimes observed. In particular, fine structure resolution is enhanced in Lowicryl HM 20 embedded fungal cells. This is due also to significant improvement in staining of the cellular membranes, cytoskeleton (microfilaments and microtubules) and Golgi apparatus-like areas, using tannic acid. In case of the fungusU. avenae, freeze-substitution in combination with mild glutaraldehyde fixation and final low-temperature embedding in HM 20 resin prove suitable for improved preservation of cellular ultrastructure.Abbreviations cw cell wall - cy cytoplasm - FS freeze-substitution - FS-A GA/OsO4 freeze-substitution and Spurr's LV-embedding - FS-B GA freeze-substitution and Lowicryl K 4 M LT-embedding - FS-C GA freeze-substitution and Lowicryl HM 20 LT-embedding - go Golgi apparatus-like body - GA glutaraldehyde - g glycogen deposit - l lipid droplet - LT low temperature - Lowicryl LT-embedding Lowicryl low-temperature embedding - Lowicryl LT-resin Lowicryl low-temperature resin - MeOH methanol - mf microfilament - mt microtubule - m mitochondrion - mvb multivesicular body - ne nuclear envelope - np nuclear pore - npl nucleoplasm - nu nucleolus - n nucleus - OsO4 osmium tetroxide - pl plasmalemma - pr polyribosomes - Pb-citrate Reynolds' lead citrate - r ribosome - RT room temperature - rer rough endoplasmic reticulum - Spurr's LV-embedding Spurr's low viscosity embedding - Spurr's LV-resin Spurr's low viscosity resin - t tonoplast - Uac uranyl acetate - v vacuole  相似文献   

7.
Small pieces of mouse pancreas were rapidly frozen in helium II, substituted in methanol at -75°C., and embedded in methacrylate by ultraviolet polymerization in the cold. The unstained cells show a structure similar to that after OsO4 fixation, except that the RNP particles have little or no contrast and the mitochondria and Golgi zones appear as grey areas without internal structure. After staining the sections by floating them on solutions of lead acetate or osmium tetroxide, there is an increase in contrast of RNP particles, ergastoplasmic membranes, and zymogen granules. Mitochondrial and Golgi membranes, zymogen granule membranes, and a membrane along the outside of the ergastoplasmic cisterna appear in negative contrast. The structure of the ergastoplasm, the existence of RNP particles, and the production of negative contrast are discussed. A modification of Gomori's method for acid phosphatase produces a lead deposit around the periphery of the zymogen granules. Possibly this deposit does not represent the true site of the enzyme, but the results show the feasibility of histochemistry at the level of resolution of the electron microscope.  相似文献   

8.
CYTOCHEMICAL STAINING OF MULTIVESICULAR BODY AND GOLGI VESICLES   总被引:19,自引:10,他引:9       下载免费PDF全文
To investigate the origin and nature of vesicles found within multivesicular bodies (mvb), the cytochemical staining properties of mvb vesicles were compared with those of other cytoplasmic vesicles, i.e. those associated with the Golgi complex and endocytic vesicles found near the apical cell surface. Rat epididymal tissue was stained in unbuffered OsO4 for 40–48 hr, and the distribution of stain was compared to that of reaction products for acid phosphatase (AcPase) to mark lysosomal vesicles, or thiamine pyrophosphatase (TPPase) to mark certain Golgi vesicles, or infused with peroxidase (HRPase) to demonstrate endocytic vesicles. Mvb vesicles were stained only by OsO4; AcPase, TPPase, and HRPase reaction products stained the mvb matrix. OsO4 also stained certain vesicles along the convex surface of the Golgi complex. The findings suggest that mvb vesicles in epididymal epithelium are not lysosomes and are not involved in protein uptake. The majority of these vesicles have cytochemical reactions in common with vesicles located along the convex surface of the Golgi complex and may be derived therefrom. A minority are derived from the mvb-limiting membrane.  相似文献   

9.
Summary Silicotungstic acid (STA), an electron dense substance and a powerful precipitating agent of quaternary ammonium salts such as choline and acetylcholine, was employed on the frog motor end-plate in order to prove that STA reacts with diffusible substance(s) in nerve terminals. Thus, STA treatment and osmium tetroxide (OsO4) fixation were performed in three different ways. No reaction was detectable when STA treatment followed osmification, while simultaneous treatment with STA and OsO4 darkened both presynaptic and synaptic vesicle membranes. When STA was employed directly on fresh tissues which were subsequently fixed by OsO4, small black precipitates were observed in the synaptic vesicles and none on other synaptic structures. The possible reaction of STA with acetylcholine is discussed.  相似文献   

10.
W. G. Langenberg 《Protoplasma》1978,94(1-2):167-173
Summary Brief fixation in a mixture of glutaraldehyde and OsO4 caused stacked chloroplast grana membranes in leaf cells of wheat, barley, tobacco, maize, cowpea, pigweed or bean plants to distend and vesiculate. Fixation with glutaraldehyde followed by OsO4 prevented this fixation artifact. In a fixative mixture, OsO4 apparently reacted with cell contents before glutaraldehyde.  相似文献   

11.
Summary The presence of any substance other than OsO4 in osmium tetroxide fixation mixtures causes a decrease in the penetration rate of the fixative. Fixation times should therefore be prolonged whenever a fixation mixture containing osmotically active substances is used.With I Figure in the Text  相似文献   

12.
The ultrastructural study of membrane organization in gram-positive bacteria related to the OsO4 fixation conditions revealed that large, complex mesosomes are observed only when the bacteria are subjected to an initial fixation with 0.1% OsO4 in the culture broth, as in the prefixation step of the Ryter-Kellenberger procedure. Evidence was obtained suggesting that the large mesosomes are produced by this prefixation. The kinetic study of the membrane morphological alterations occurring during the prefixation of Bacillus cereus with 0.1% OsO4 in the culture broth showed that the amount of mesosome material increases linearly from zero to a maximum observed at 1.7 min of prefixation and that at about this time a maximum is reached for the number of mesosomes per unity of cell area and for the average individual mesosome area. The large mesosomes observed in gram-positives fixed by the complete Ryter-Kellenberger procedure would be the result of the membrane-damaging action of 0.1% OsO4. Such damaging action was deduced from the observation that 0.1% OsO4 quickly lyses protoplasts and induces a quick and extensive leakage of intracellular K+ from B. cereus and Streptococcus faeculis. In support of that interpretation is the observation that in bacteria subjected to several membrane-damaging treatments, mesosome-like structures are seen after three different fixation procedures. In bacteria initially fixed with 1% OsO4, 4% OsO4 or 2.5% glutaraldehyde, no large, complex mesosomes are observed, small and simple invaginations of the cytoplasmic membrane being present. The size of these minute mesosomes is inversely proportional that causes of fixation. Uranyl acetate was found among the studied fixatives the one to the rate the least damage to bacterial membranes. This fixative satisfactorily preserves protoplasts. In bacteria initially fixed with uranyl acetate no mesosomes were found. The results of the present work throw serious doubts on the existence of mesosomes, both large and small, as real structures of bacterial cells. It is proposed that a continuous cytoplasmic membrane without infoldings (mesosomes) would be the real pattern of membrane organization in gram-positives.  相似文献   

13.
Summary Effect of the covalently cross-linking agents glutardialdehyde and osmium tetroxide, and of adsorption of the vital dye, neutral red, to the matrix of the calcium-binding vesicles from the green alga Mougeotia scalaris has been analysed in situ, both in terms of structural preservation and of the calcium-binding capacity of the vesicles. Upon cell fixation in glutardialdehyde without OsO4, the vesicles appear to dissolve, but upon simultaneous fixation in glutardialdehyde with OsO4 (1% w/v), the vesicles retain a globular form, are evenly stained by osmium and appear to be surrounded by a membrane-like structure. This structure was also observed around the vesicles in cells preincubated for 10 min in 0.1 mM neutral red and then fixed in glutardialdehyde/OsO4 for 1 h. More detailed information of the matrix structure is obtained when simultaneous fixation of the Mougeotia cells was shortened to 15 min: a membrane-like structure was no longer observed around the vesicles. After cell treatment in the presence of neutral red, no calcium at all was found inside the vesicles. A small amount of calcium remained, when cells were fixed simultaneously and extensively in the absence of neutral red. However, calcium was found, to a considerable extent, inside the vesicles after short simultaneous fixation of the cells in the absence of neutral red. Based on the ultrastructural and elemental features presented here, the calcium-binding vesicles in Mougeotia appear to represent a member of the large family of (calcium-binding) physodes in lower plants (CaBP).  相似文献   

14.
Summary Rat parathyroids fixed by microwave enhancement, i.e. microwave irradiation in the presence of glutaraldehyde for 8 s and postfixation with OsO4 after a delay of 5 min, were compared with parathyroids fixed by perfusion with glutaraldehyde followed by immersion in glutaraldehyde and finally in OsO4. Morphometric analysis revealed that microwave enhanced fixation led to larger mean cell volume, to larger cell surface area, and to larger suface area in membranes of RER and secretory granules. Though it is not known by which method parathyroid cells are conserved closer to the living state it is obvious that microwave enhanced fixation retains more membranes but provokes centrifugal dislocation of membranes mimiking exocytosis.  相似文献   

15.
Osmium tetroxide (OsO4) is a commonly used stain for unsaturated lipids in electron and optical microscopy of cells and tissues. In this work, the localization of osmium oxide and specific lipids was independently monitored in mouse adipose tissue by using time-of-flight secondary ion mass spectrometry with Bi cluster primary ions. Substance-specific ion images recorded after OsO4 staining showed that unsaturated C18 fatty acids were colocalized with osmium oxide, corroborating the view that osmium tetroxide binds to unsaturated lipids. In contrast, saturated fatty acids (C14, C16 and C18) and also unsaturated C16 fatty acids show largely complementary localizations to osmium oxide. Furthermore, the distributions of saturated and unsaturated diglycerides are consistent with the specific binding of osmium oxide to unsaturated C18 fatty acids. The abundance of ions, characteristic of phospholipids and proteins, is strongly decreased as a result of the osmium staining, suggesting that a large fraction of these compounds are removed from the tissue during this step, while ions related to fatty acids, di- and triglycerides remain strong after osmium staining. Ethanol dehydration after osmium staining results in more homogeneous distributions of osmium oxide and unsaturated lipids. This work provides detailed insight into the specific binding of osmium oxide to different lipids.  相似文献   

16.
Zusammenfassung Fibroblastenkulturen wurden mit Mepacrin (Atebrin®), Neutralrot und Toluidinblau unter vergleichbaren Bedingungen vitalgefärbt. Die Farbstoffe induzieren die Bildung autophagischer Vakuolen (Autolysosomen) im Cytoplasma. Die Eignung von sieben verschiedenen Fixantien zur Erhaltung dieser im lichtmikroskopischen Sinn neugebildeten Strukturen wurde untersucht.Kriterien der jeweiligen Fixationsleistung waren einmal die Erhaltung der autophagischen Vakuolen an sich, zum anderen die Erhaltung ihrer farbstoffabhängigen, morphologischen Individualität.Als wenig leistungsfähig haben sich erwiesen die Lösungen nach Carnoy und Bouin sowie Formol. Glutaraldehyd bewahrt die Lysosomenstruktur befriedigend, jedoch nicht ausreichend stabil für weitere, etwa histochemische, Eingriffe. Kaliumbichromat gewährleistet bessere Stabilität, jedoch nur geringe Lebensähnlichkeit der Autolysosomen.OsO4 und NaMnO4 sind den anderen Fixantien hinsichtlich der Erfüllung beider Kriterien deutlich überlegen. Die Befunde werden mit dem lipidstabilisierenden Effekt, den beide Metalloxydverbindungen an den phospholipidreichen Autolysosomen ausüben, in Zusammenhang gebracht.Unterschiede in der Wirkung ließen sich nach Anwendung von OsO4 und NaMnO4 an den AV nachweisen: Mepacrin-AV werden durch OsO4 etwas lebensähnlicher erhalten als durch NaMnO4. Die Neutralrot-AV und Toluidinblau-AV mit deutlicher vakuolärer Struktur werden nur durch Permanganat im Zusammenhang erhalten, mit deutlicher Abgrenzung der Toluidinblau-induzierten von den Neutralrot-induzierten Autolysosomen.Nach Osmium- und Permanganatfixation zeigen die Zellkulturen starke Affinität zu Methylenblau, nicht Eosin. Nur die OsO4-fixierten Autolysosomen halten gegenüber Alkoholeinwirkung ihre Anfärbung im wesentlichen bei.Die Befunde werden diskutiert.
Light microscopical investigations on structural preservation of Dye-Induced autophagic vacuoles by diverse fixatives
Summary Fibroblasts grown in monolayer were subjected to vital staining by mepacrine (Atebrine®), neutral red and toludine blue under comparable conditions. These dyes induce the formation of autophagic vacuoles (autolysosomes) in the cytoplasm. The preservation of these structures, which are considered to be newly formed in the dimension of the light microscope, by seven different fixatives has been examined.The criteria employed to assess the performance of each fixative consisted of 1. the preservation of the autophagic vacuoles per se and 2. their dye-dependent morphological characteristics.Fixation by Carnoy's or Bouin's solution as well as by formaline gave poor results. Glutaraldehyde preserved lysosomal structure satisfactorily, but not adequately for further application of histochemical methods. Potassium dichromate has a stabilizing effect on autophagic vacuoles, however, structures are not equivalent to those observed in living cells.Osmium tetroxide (OsO4) and sodium permanganate (NaMnO4) are superior to the other fixatives with regard to the afore mentioned criteria. These observations are explained by the wellknown lipid-stabilizing effect which both metal oxides are expected to exert on autolysosomes with their high content of phospholipids.After fixation with OsO4 and NaMnO4 diverging effects on autophagic vacuoles could be ascertained. Mepacrine-induced autophagic vacuoles are preserved somewhat more accurately by OsO4 than by NaMnO4.Autolysosomes induced by neutral red and toluidine blue display a more vacuolated appearance and are preserved as a whole only by permanganate. Distinct differences exist between autophagic vacuoles induced by toluidine blue and those induced by neutral red.After fixation by OsO4 and NaMnO4 cells from culture display a strong affinity to methylene blue, but not to eosin. The staining of autolysosomes by methylene blue is resistant to ethanol after fixation in OsO4 only.The results are discussed.
Die Arbeit wurde mit Unterstützung der Firma Hoffmann-La Roche und Co. A.G., Basel, durchgeführt.  相似文献   

17.
Fine Structure of Bacillus subtilis : I. Fixation   总被引:10,自引:8,他引:2       下载免费PDF全文
The fine structure of Bacillus subtilis has been studied by observing sections fixed in KMnO4, OsO4, or a combination of both. The majority of examinations were made in samples fixed in 2.0 per cent KMnO4 in tap water. Samples were embedded in butyl methacrylate for sectioning. In general, KMnO4 fixation appeared to provide much better definition of the boundaries of various structures than did OsO4. With either type of fixation, however, the surface structure of the cell appeared to consist of two components: cell wall and cytoplasmic membrane. Each of these, in turn, was observed to have a double aspect. The cell wall appeared to be composed of an outer part, broad and light, and an inner part, thin and dense. The cytoplasmic membrane appeared (at times, under KMnO4 fixation) as two thin lines. In cells fixed first with OsO4 solution, and then refixed with a mixture of KMnO4 and OsO4 solutions, the features revealed were more or less a mixture of those revealed by each fixation alone. A homogeneous, smooth structure, lacking a vacuole-like space, was identified as the nuclear structure in a form relatively free of artifacts. Two unidentified structures were observed in the cytoplasm when B. subtilis was fixed with KMnO4. One a tortuous, fine filamentous element associated with a narrow light space, was often found near the ends of cells, or attached to one end of the pre-spore. The other showed a special inner structure somewhat similar to cristae mitochondriales.  相似文献   

18.
Observations on the fine structure of KMnO4-fixed testes of small mammals (guinea pig, rat, and mouse) reveal certain morphological differences between the spermatogenic and Sertoli cells which have not been demonstrated in the same tissue fixed with OsO4. Aggregates of minute circular profiles, much smaller than the spherical Golgi vesicles, are described in close association with the Golgi complex of developing spermatids. Groups of dense flattened vesicles, individually surrounded by a membrane of different dimensions than that which bounds most of the other cell organelles, appear dispersed within the cytoplasm of some spermatogenic cells. Flattened vesicles of greater density than those belonging to the Golgi complex are reported confined to the inner Golgi zone of developing guinea pig spermatids between the Golgi cisternae and the head cap. The profiles of endoplasmic reticulum within spermatocytes appear shorter, wider, and more tortuous than those of Sertoli cells. Minute cytoplasmic particles approximately 300 A in diameter and of high electron opacity appear randomly disposed in some Sertoli cells. Groups of irregular-shaped ovoid bodies within the developing spermatids are described as resembling portions of cytoplasm from closely adjacent spermatids. Interpretation is presented regarding the fine structure of KMnO4-fixed testes in view of what has already been reported for mammalian testes fixed in OsO4.  相似文献   

19.
Summary The hyphal tip ofSclerotium rolfsii was examined after fixation by freeze substitution. The Spitzenkörper consisted of a dense mass of apical vesicles and microvesicles surrounding a vesicle-free zone. Linear arrangements of microvesicles were occasionally observed within the Spitzenkörper. Abundant microfilaments were seen within the Spitzenkörper region, often in close association with apical vesicles and microvesicles. Microtubules passed through the Spitzenkörper and terminated at the plasmalemma at the extreme hyphal apex. Filasomes were mostly observed within the apical region and were in close proximity to the plasmalemma. Rough ER, mitochondria, microtubules, and vacuoles were abundant in the subapical region and were usually oriented parallel to the long axis of the hypha. Ribosomes were aligned on the outer surfaces of mitochondria. Golgi body equivalents were observed throughout the subapical region and appeared as inflated cisternae of varying shapes and electron opacities. Relationships to other basidiomycetous hyphal tip cells are discussed.Abbreviations AV apical vesicle - C Celsius - diam diameter - f filasome - G Golgi body equivalent - h hour - nm nanometer - M mitochondria - ME membranous elements; min minute - MV microvesicle - MVB multivesicular body - N nucleus - OsO4 osmium tetroxide - R ribosome - ER endoplasmic reticulum - S Spitzenkörper - Va vacuole - m micrometer  相似文献   

20.
Summary A mechanism of osmium reduction during zinc iodide-osmium tetroxide (ZIO) fixation is proposed.X-ray powder microanalyses of ZIO precipitates formed both in the presence or absence of tissues are identical with those of CuOsO4 and CuRuO4. Therefore, and based on indexation methods, ZnOsO4 was found to be the formula of the ZIO mixture reduction; this zinc osmate has an orthorhombic crystalline lattice.In smooth muscle preparations, ZIO electron dense deposits are localized in both cisternae of the sarcoplasmic reticulum and in mitochondria after a short fixation time.According to the microanalysis results, the zinc osmate has been associated to Ca2+ high affinity sites since Zn2+ is either replacing Ca2+ and/or displacing it by having a higher affinity for Ca2+ binding sites. Consequently, the ZIO mixture might be useful in revealing some Ca2+ storage sites in cells. This hypothesis was tested in ABRM preparations by selectively depleting sites which are known to bind Ca2+. In this case, the sarcoplasmic reticulum only retains the staining deposits after a short ZIO fixation.It is likely that OsO4 alone, used as fixative in cytology might be due to the formation of metallic osmates (e.g., divalent osmates like CaOsO4). In addition, of course, reduction of osmium during tissue fixation is accompanied by oxidation of double bonds of lipoproteic complexes or unsaturated lipids, and oxidation of sulfhydryl groups and amino groups.  相似文献   

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