Regeneration of plasmalemma and surface properties in macrophages

The regeneration of surface anionic groups in mouse peritoneal macrophages was investigated by electron microscopy, using cationized ferritin (CF) as a tool for the localization and evaluation of negative charge density on the cell surface. In vitro interaction of living macrophages with CF resulted in removal of most anionic groups, either by concentration of their receptor sites to a part of the membrane which is subsequently internalized, or by detachment of the aggregated label from the surface. After incubation of macrophages lacking surface anionic groups in tissue culture medium without the ligand, regeneration of the binding capacity for CF took place within 3 h. The first regenerated parts of the membrane can be visualized within 1 h on the upper part of the adherent cells; there is a discontinuous coating of ferritin, with the lateral regions of the plasmalemma free of label. The attached CF particles on the regenerated membrane are closer to the membrane and their density is considerably higher than on the normal control macrophages. The results indicate that the turnover of the plasmalemma is regional and not dispersed; the mechanism involved is insertion of membrane patches into the pre-existing plasma membrane.     

Effekte der Phospholipase D auf den Elektronentransport und die Lipidzusammensetzung isolierter Spinatchloroplasten

Summary The process of cell wall regeneration around two species of higher plant protoplasts has been studied using reflection scanning electron microscopy. The first stage in the process is the formation of short fibres from randomly spaced centres. With protoplasts of tobacco leaf (Nicotiana tabacum L., cv White Burley) these fibres then elongate and interlace apparently at random to give rise to a matted continuous layer of wall. Protoplasts of a suspension culture of grapevine cells (Vitis vinifera L. cv Müller Thurgau) produce short fibres but these fail to elongate. Budding is observed during wall regeneration around vine protoplasts. The results are discussed in terms of the mechanical properties of the wall and its relationship to changes in plasmalemma morphology which are observed during wall formation.Abbreviation SEM scanning electron microscopy     

细叶黄芪叶肉原生质体发育早期细胞壁再生的研究

采用透射电镜术、电镜多糖细胞化学染色、细胞壁荧光染色以及香豆素抑制细胞壁再生等方法,对细叶黄芪（Ａｓｔｒａｇａｌｕｓｍ ｅｌｉｌｏｔｏｉｄｅｓ ｖａｒ．ｔｅｎｕｉｓ）叶肉原生质体细胞壁的再生及其化学特点进行了研究。结果表明,离体培养２４ 小时的原生质体表面产生一些突起小泡,有时可见少量纤维组分的形成。培养３ 天时这种纤维组分明显增多。至５ 天时可清楚看到再生壁是由纤维和颗粒构成。六亚甲四胺银染色证明它们都是由多糖组分组成的。另外,培养３６ 小时的原生质体有相互粘连的现象。电镜观察、荧光染色及香豆素处理的研究表明粘连与再生壁的形成有关。根据上述观察结果,对原生质体再生壁的结构及其化学性质等问题进行了讨论     

Cell Wall Regenration During Early Development of Mesophyll Protoplasts of Astragalus melilotoides var. tenuis

The techniques of transmission electron microscopy (TEM), electron microscopy (EM) cytochemical visualization of polysaccharide, cell wall flourescence labelling of cell wall and inhibition of wall formation by coumarin treatment were used to explore the cell wall regeneration and its chemical characteristics in mesophyll protoplasts of Astragalus melilotoides var. tenuis. The results showed that after 24 h in culture a number of protruding vesicles, as well as a small amount of fibrillar component were formed on the surface of protoplasts. On day 3, the amount of fibrils increased significantly. On day 5, regenerated primary wall composed of fibrils and granules were observed, in which polysacchaides were detected as result of the periodic acid-silver methenamine reaction. In addition, after 36 h in culture, the protoplasts tended to coalesce, flourescence staining and coumarin treatment demonstrated that the protoplast adhesion was the result of cell wall formation. Based on these data, problems such as the structure of regenerated wall and its chemical nature, etc. were discussed.     

Freeze-substitution of dehydrated plant tissues: Artefacts of aqueous fixation revisited

Summary This investigation assessed the extent of rehydration of dehydrated plant tissues during aqueous fixation in comparison with the fine structure revealed by freeze-substitution. Radicles from desiccation-tolerant pea (Pisum sativum L.), desiccation-sensitive jackfruit seeds (Artocarpus heterophyllus Lamk.), and leaves of the resurrection plantEragrostis nindensis Ficalho & Hiern. were selected for their developmentally diverse characteristics. Following freeze-substitution, electron microscopy of dehydrated cells revealed variable wall infolding. Plasmalemmas had a trilaminar appearance and were continuous and closely appressed to cell walls, while the cytoplasm was compacted but ordered. Following aqueous fixation, separation of the plasmalemma and the cell wall, membrane vesiculation and distortion of cellular substructure were evident in all material studied. The sectional area enclosed by the cell wall in cortical cells of dehydrated pea and jackfruit radicles and mesophyll ofE. nindensis increased after aqueous fixation by 55, 20, and 30%, respectively. Separation of the plasmalemma and the cell wall was attributed to the characteristics of aqueous fixatives, which limited the expansion of the plasmalemma and cellular contents but not that of the cell wall. It is proposed that severed plasmodesmatal connections, plasmalemma discontinuities, and membrane vesiculation that frequently accompany separation of walls and protoplasm are artefacts of aqueous fixation and should not be interpreted as evidence of desiccation damage or membrane recycling. Evidence suggests that, unlike aqueous fixation, freeze-substitution facilitates reliable preservation of tissues in the dehydrated state and is therefore essential for ultrastructural studies of desiccation.Abbreviations LM light microscopy - TEM transmission electron microscopy - CF conventional (aqueous) fixation - FS freeze-substitution - ER endoplasmic reticulum     

元麦叶肉原生质体细胞壁再生过程中的扫描电镜观察及过氧化物酶活性

元麦叶肉原生质体在MS培养基(附加2,4-D 1mg/L,6-BA 0.25 mg/L)中,进行液体浅层培养。用荧光增白剂(VBL)染色,培养1天出现再生壁。通过扫描电镜观察,发现随着培养时间的延长,原生质体表面逐渐出现短棒状突出物和纤维状结构;培养第5天,原生质体表面覆盖较厚的纤维层,与未脱壁的元麦叶肉细胞表面形态结构相似。用愈创木酚作氢供体测定原生质体胞壁再生过程中过氧化物酶活性,发现随着壁再生率提高,过氧化物酶活性明显下降。用聚丙烯酰胺凝胶电泳分离阳极向过氧化物酶同工酶酶谱,酶带也随着培养时间的延长而减少。由刚分离的原生质体中的8条减少到培养4天的2条,反映胞壁再生和过氧化物酶活性呈负相关。     

Localization of α-galactomannan and of wheat germ agglutinin receptors inSchizosaccharomyces pombe

The location of galactomannan on the surface ofSchizosaccharomyces pombe cells was reexamined by scanning electron microscopy by an indirect but specific method using gold markers. The polysaccharide was found on the cell surface and at the end beginning to grow but not on the wall established by division. Galactomannan was also localized onS. pombe thin sections by transmission electron microscopy using the same method. The polysaccharide was found deposited in two layers in the cell wall, i.e. at the periphery of the wall and near the plasmalemma. The septum was also marked but mainly near the plasmalemma. These results indicated that the polysaccharide is elaborated onto the outside of the wall during extension but not during septum formation. When thin sections ofS. pombe were marked with gold granules labeled with wheat germ agglutinin, marking was found in vacuoles but not in the cell wall. This confirmed thatS. pombe cell wall is devoid of chitin.Non-Standard Abbreviations Au gold colloid - RCA_I Ricinus communis lectin - SEM scanning electron microscopy - TEM transmission electron microscopy - WGA wheat germ agglutinin     

High-resolution microscopy of cell wall formation in regenerating Mougeotia (Chlorophyceae) protoplasts

Field emission scanning electron microscopy (FESEM) preparation techniques have been successfully adapted for visualization of the internal and external ultrastructure of Mougeotia filaments and protoplasts. FESEM of the innermost layer of cell wall in Mougeotia filaments revealed that microfibrils are deposited parallel to each other in an interconnected mesh and are oriented perpendicular to the direction of elongation. For the first time, the surface of protoplasts at different stages of regeneration has been observed using FESEM. Nascent microfibril deposition occurs between 1 and 2 h after isolation and arrangement of these microfibrils is random for at least 8 h. Observation of the inner surface of the plasma membrane in burst protoplasts showed that microtubules are not strongly attached for at least 3 h after protoplast isolation.     

Comparative electron microscopic study of Bacillus thuringiensis cells grown in a chemostat]

It has been shown that the culture of Bacillus thuringiensis subsp. gall. 69-6 dissociates into R- and S-variants in chemostat. Although under some conditions the sporogenesis and the synthesis of S-variant toxin began two hours earlier than these processes in R-variant cells which were observed, respectively, after 10 or 12 hours from the beginning of the experiment, the intensities of sporogenesis and toxin production as well as the exit of spores and toxin excretion from cells were similar after 24 hours. The resistance to the bacteriophage present in chemostat was the advantage of S-variant cells. The data obtained by electron microscopy indicate that the phagoresistance is caused by the structural organization of the S-variant cell wall. Its peptidoglycan component is thin and is distinguished by crumb structure. By means of negative contrast microscopy it was found that the surface T-layer of R-variant cell wall was characterized by the tetragonal packaging of protein subunits indicating the regular orientation of phagoreceptors in it. The redistribution of protein subunits in the T-layer of S-variant cell wall prevented from the adsorbance of bacteriophages on the cell surface. The adsorbance of phages on the surface of R-variant cells was observed rather often. It led to the degradation of peptidoglycan, the formation of protoplasts and lysis.     

Stereo-ultrastructure of the surface of HeLa cells following exposure to the MPEL of a number of trace elements

Scanning electron microscopy was used to study the surface ultrastructure of HeLa cells after the incubation with maximum-permissible concentrations (MPC) of zinc, nickel, cobalt, cadmium and fluorine for 2, 4 and 24 hours. It was established that the action of zinc, nickel, fluorine was accompanied by the ultrastructural changes in plasmalemma up to the end of experiment. The effect of the cobalt and cadmium MPC was short-term, and cells restored their typical surface morphology within 24 hours.     

Close-packing of plasma membrane particles during wall regeneration by isolated higher plant protoplasts—fact or artefact?

Summary Freeze-fracture preparations of protoplasts isolated from cell suspension cultures and leaf mesophyll tissue have been examined by transmission electron microscopy. During the first 72 hours of cell wall regeneration, the 8–10nm intramembraneous particles were randomly distributed on both the protoplasmic and extracellular fracture faces of the plasma membranes of protoplasts frozen and fractured in the culture medium without glutaraldehyde fixation or cryoprotection. Incubation of living protoplasts in culture medium containing 20% v/v glycerol as cryoprotectant prior to freezing without fixation caused deformation of the plasma membrane in the form of protrusions accompanied by particle aggregation on the protoplasmic fracture face of the membrane. Intramembraneous particle aggregation was not observed in protoplasts fixed in glutaraldehyde prior to incubation in medium containing glycerol. The aggregation of particles into hexagonal close packed arrays and elongate chains is discussed in relation to a previous report in the literature of the possible involvement of intramembraneous particle complexes in microfibril formation by isolated higher plant protoplasts.     

Morphology ofEntomophthora muscae protoplasts grownin vitro

Summary Entomophthora muscae (C.) Fres. can be grownin vitro as protoplasts. Light and electron microscopical studies of thein vitro developed protoplasts have demonstrated the absence of an organized wall over the protoplasmic Con A-positive membrane at all stages of growth. The cytological organization is typical of the Entomophthorales with condensed chromatin in the interphase nuclei and small eccentric metaphase spindles. Long strands of endoplasmic reticulum, microubules and vesicles surrounding the plasmalemma may be involved in maintaining the precise shape ofE. muscae protoplast. Starvation of the fungus induces the formation of hyphal bodies after deposition of Con A- and WGA-positive wall material at the plasmalemma surface.Abbreviations Con A concanavalin A - DH Drosophila cell culture medium - FITC fluorescein isothiocyanate - GLEN glucose-lactal-bumin-yeast extract-NaCl culture medium for protoplasts - HBL hyphal body-like protoplasts - MM Mitsuhashi and Maramorosch' insect cell culture medium - PATAg periodic acid-thiocarbohydrazide-silver proteinate technique - PBN phosphate buffer with NaCl - S spherical protoplasts - WGA wheat germ agglutinin     

Localization of lead accumulated by corn plants

Light and electron microscopic studies of corn plants (Zea mays L.) exposed to Pb in hydroponic solution showed that the roots generally accumulated a surface Pb precipitate and slowly accumulated Pb crystals in the cell walls. The root surface precipitate formed without the apparent influence of any cell organelles. In contrast, Pb taken up by roots was concentrated in dictyosome vesicles. Dictyosome vesicles containing cell wall material fused with one another to encase the Pb deposit. This encased deposit which was surrounded by a membrane migrated toward the outside of the cell where the membrane surrounding the deposit fused with the plasmalemma. The material surrounding the deposit then fused with the cell wall. The result of this process was a concentration of Pb deposits in the cell wall outside the plasmalemma. Similar deposits were observed in stems and leaves suggesting that Pb was transported and deposited in a similar manner.     

Paramural Bodies in Callus Beside the Isolation Layer of the Graft Union

The isolation layer of the graft union is a changeable component. It is formed and thickened during the early stage (Fig. 6) and disrupted, thinned and even disappeared durmg tile later stage of development of the graft (Fig. 1, 2, 14). A number of vesicles, paramarat bodies (Fig. 3, 5, 8, 9, 11, 13, 19), multivesicular bodies (Fig. 4, 15, 16, 18, 20) and concentric membrane bodies (Fig. 7) are observed in callus 'beside the isolation layer during both stages of development based on transmission electron microscopy. The paramural body comprises invagination of plasmalemma containing numerous vesicles and/or tubules situated between the cell wall and the plasmalemma. The multivesicular body is a organelle about 0.5-μm in diameter with a single membrane surrounding several smaller single vesicles. It is possible that multivesicular body and/or single iesicles transverse the plasmalemma to produce paramural body. The figures show that the paramural bodies appear always beside the isolalion layer at the different stages of development of the graft union and the multivesicular bodies appear mostly near the region where plasmodesmata are secondarily formed between the stock and the scion (Fig. 15, 17, 20). This may reflect that paramural body and multivesi- cular body, as well as single vesicles, are capable of performing vesicular transport. The deposition and reabsorption of material of the isolation layer occur due to vesicular transport. All the above facts seem to indicate that paramural body, multivesicular body and single vesicles can be both endocytotic and exocytotic. The present study supports the theory of vesicular transport, and authors suggest that transcellular cytosis occurs not only through plasmodesmata but also through plasmalemma in oapoplast. The single vesicles, paramural bodies and multivesicular bodies take an active part in the transport process of symplast-apoplast-symplast.     

Scanning electron microscopy of the Alnus crispa var. mollis Fern. root nodule endophyte

Nitrogen-fixing root nodules of the Alnus crispa var. mollis Fern. were studied by scanning electron microscopy (SEM). The critical point drying of glutaraldehyde-osmium fixed nodular tissue permitted an excellent morphological preservation of the three-dimensional structures of the host and endophyte cells. The nodule endophyte was observed as two forms: the hypha which can be branched, and the vesicle which developed at the parental hypha tip. The actinomycetal endophyte penetrated through the host cortical cell wall and became enveloped by a membrane. This enclosing membrane is suggested to be the invaginated host plasmalemma. Perforations of the cell wall of the host infected cell were observed. These perforations are suggested to be the result of an enzymatic degradation process, probably regulated by the penetrating endophyte hyphae. In addition to the polymorphic endophyte, endogenous bacterial contaminants were observed in the nodular tissue. The present SEM study confirms previous light microscopy and transmission electron microscopy studies of the same species of root nodule symbiosis.     

Structural and ultrastructural analysis of Solanum lycopersicoides protoplasts during diploid plant regeneration

Light, fluorescence and electron microscopy were used to analyse the structural properties of protoplasts obtained from established suspension culture of Solanum lycopersicoides Dun, composed of meristematic cell aggregates. Four types of protoplasts were distinguished immediately after isolation: (1) mononuclear; (2) polynuclear, (3) anuclear and (4) homogeneous protoplasts. Only mononuclear protoplasts were capable of complete cell wall regeneration and mitotic division. Other types of protoplasts were eliminated during culture. Three phases were distinguished in the developing protoplast culture: (1) the elimination phase during which protoplasts damaged during isolation underwent complete degradation; (2) a phase of intense division during which both mitotic cell division and amitotic nuclear division took place; and (3) a stabilization phase leading to the formation of suspension culture. The cell suspension culture obtained from protoplasts was capable of regenerating diploid plants.     

Patch clamping corn protoplasts

Summary Cell wall regeneration around protoplasts from Black Mexican Sweet corn suspension cells has been observed using scanning electron microscopy. A coherent array of cellulose microfibrils can be seen around protoplasts two hours after they have been isolated. This array does not form in the presence of 15 mg/l Congo Red. The frequency and electrical resistance of seals made between patch clamp pipettes and the plasmalemma around corn protoplasts is not significantly affected by the presence or absence of these fibrils (p₀=0.75); it remains relatively low. Some single channel records from BMS corn protoplasts are shown.     

Pollen development of Rondeletia odorata (Rubiaceae)

Pollen wall ontogeny of RONDELETIA: odorata was studied with transmission electron microscopy (TEM) and scanning electron microscopy (SEM) from tetrad stage until maturity. The ontogenetic sequence of wall development in RONDELETIA: follows, to some extent, the basic scheme in the angiosperms, i.e., development starts centripetally with the pro-columellae in a plasmalemma surface coating (primexine) at the early tetrad stage when the microspores are still enveloped by callose, until intine formation in young pollen grains. The main ontogenetical features of Rondeletia odorata pollen are (1) the very thin irregular foot layer, (2) development of a continuous layer of radially oriented membranous granular material under the thick endexine, (3) initiation of intine before first mitosis with characteristic radial plasmalemma invaginations, and (4) a strong stretching force upon engorgement just prior to dehiscence, which leads to reduction in thickness of all wall layers. The possible function of Golgi vesicles in the considerable increase in surface area of the plasmalemma at intine initiation is discussed. The endocingulum observed on acetolyzed and sectioned mature grains is explained ultrastructurally.     

Electron microscopic findings on reversion of Listeria L-forms

Reversion in L-forms of Listeria monocytogenes was studied with the use of electron microscopy. In the culture undergoing the process of reversion cells differing in size, form and the electron density of the cytoplasm were present. The process of reversion was characterized by the increase of cytoplasmic density, the decrease of nucleoid, the appearance of fibrillary material of medium electron density on the membrane surface and the longitudinal elongation of the cell. The cell wall of the revertants was thinner and its outer layer with greater electron density was less pronounced than in the initial culture.     

离体细胞共培养中科间细胞共质体的形成

离体培养下选出的绿色胡萝卜（Ｄａｕｃｕｓ ｃａｒｏｔａ）细胞系和白色普通烟草（Ｎｉｃｏｔｉａｎａｔａｂａｃｕｍ ）细胞系,各自具有独特的细胞结构标志,在愈伤组织、光镜和电镜３ 个水平上均可区分。对两个细胞系进行分散、混合、Ｋ＋ 液低渗处理后在固体培养基上共培养,１０—１５ ｄ 后可观察到两种细胞的镶嵌生长。光镜和电镜下均观察到烟草细胞和胡萝卜细胞之间隔离层的存在与消失。在隔离层消失的区域可见到异种细胞间次生胞间连丝的形成,从而将独立的两个共质体连成一个统一的共质体。对科间细胞共质联系的建立过程进行了讨论,认为细胞接触后首先非特异粘连——以隔离层形成并适度加厚为标志,然后特异的细胞识别在隔离层中启动,从而导致隔离层或消失而重新建立共质联系或加厚、木质化、木栓化