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1.
在分化条件下甜菊愈伤组织分生区细胞超微结构研究   总被引:2,自引:0,他引:2  
对甜菊(Steviarebaudiana)愈伤组织中尚未发生器官分化的分生细胞团进行了超微结构研究.结果表明,在器官分化条件下,愈伤组织中形成的分生区域的细胞体积小,细胞核大,核仁明显,且具核仁泡,部分细胞核中含有核内含物.大量小液泡分布在细胞的边周或散布于整个细胞中.液泡中通常含有陷入的细胞质成分和膜状物.部分液泡的形成与内质网膨大有密切关系.同时也观察到由内质网形成的多圈膜和双层膜包围细胞质成分的同心环结构.高尔基体及其小泡丰富,有时聚集分布在细胞某一区域.核糖体密集,有的聚集成多聚核糖体.因此,愈伤组织中分生区的细胞与分生组织中的液泡化和分裂的细胞类似.分生区细胞的另一明显特征是出现质膜内陷.推测这些超微结构特征可能反映了甜菊愈伤组织器官分化前的某些形态变化。  相似文献   

2.
The cytoplasmic domain of cadherins and the associated catenins link the cytoskeleton with signal transduction pathways. To study the signaling function of non-junctional VE-cadherin, which can form during the loss VE-cadherin homotypic adhesion, wild type VE-cadherin or VE-cadherin cytoplasmic domain (DeltaEXD) was expressed in sub-confluent endothelial cells. We observed that Cdc42 was activated in transfected cells and that these cells also developed Cdc42-dependent >70-microm-long plasma membrane protrusions. The formation of these structures required actin polymerization, and they developed specifically in endothelial cells as compared with epithelial cells. Expression of the VE-cadherin cytoplasmic domain lacking the beta-catenin binding site also induced Cdc42 activation; thus, its activation cannot be ascribed to beta-catenin binding. However, these cells were not able to form the protrusions. These results suggest that the cytoplasmic domain of non-junctional VE-cadherin can serve as a scaffold involved in Cdc42 activation at the endothelial plasma membrane. beta-Catenin and the associated alpha-catenin may serve as support sites for actin polymerization, leading to formation of long plasma membrane protrusions. Thus, non-junctional VE-cadherin actively participates in inside-out signaling at the plasma membrane, leading to the development of endothelial membrane protrusions.  相似文献   

3.
Embryonic ectodermal cells of rat embryos were examined by light and electron microscopy during the early stage of neurulation. Before the onset of neurulation (day 9–6 hr embryos), the cells underwent certain characteristic ultrastructural changes; that is, apical cytoplasmic protrusions and free spherules appeared, numerous vacuoles were formed in the cytoplasm, mitochondria showed ballooning, and the endoplasmic reticulum became dilated. The amniotic cells derived from the embryonic ectoderm exhibited the same ultrastructural changes, but those from the extraembryonic mesoderm did not. Embryonic mesodermal cells and neuroectodermal cells also did not show these changes. In the middle stage of neurulation (day 9–12 hr embryos), the embryonic ectodermal cells and the amniotic cells derived from the embryonic ectoderm assumed a flat squamous shape. None of the ultrastructural changes observed in day 9–6 hr embryos were noted in these cells. The functional significance of the production of apical cytoplasmic protrusions and free spherules in the embryonic ectodermal cells and amniotic cells is discussed in relation to similar phenomena reported to occur in other cell types.  相似文献   

4.
Summary Lateral roots ofVicia faba were treated three hours with 0.2 percent caffeine. The ultrastructure of binucleate cells formed that way was studied by electron microscopy. Shortly after the end of treatment, nuclei connected by a strand of nucleoplasm were observed which was referred to nuclear fusions. In binucleate cells no stages reminding of a typical phragmoplast or a cell plate could be identified, whereas wall protrusions occurred at interphase and mitosis, respectively, obviously growing centripetally performing a pseudo-cytokinesis. Some hours later wall formation was more irregular and nuclear constrictions could be observed. Since the microtubules are not affected, the possible effect of caffeine on cytoplasmic streams is discussed.  相似文献   

5.
Summary This study considers the earlier growth stages of Coccidium Coelotropha durchoni in its host, Nereis diversicolor. Before evolving into free trophozoites and gamontes in coeliac fluid, the parasites remain in muscular and coeliac cells in microscopic intracellular form. Electron microscope reveals that these stages show an intermediary fine structure between that of a sporozoite — from which they keep some typical characteristics such as the conoid, the fibers and the involuted tubuli — and that of the future free trophozoites. The wall consisting in two clear membrans is provided with one or several micropores. The classical cytoplasmic organites clearly stand out: dictyosomes show constant relationship with ergastoplasm, the mitochondria contain short inner tubuli. Besides the paraglycogen granules and lipoid vacuoles, at least three types of vacuoles may be observed. Peculiar topographic relationship connects mitochondria and paraglycogen granules probably in formation. In the nucleus with classical membrane and heterogeneous structure, a rather voluminous nucleolus may be seen.  相似文献   

6.
Cadmium is a potent inducer of programmed cell death (PCD) in plants but the morphological changes in cells exposed to cadmium are poorly characterized. Using light and transmission electron microscopy (TEM) we have investigated the changes in ultrastructure of tobacco BY‐2 cells treated with 50 µM CdSO4. The cadmium‐induced alterations in cell morphology occurred gradually over a period of 3–4 days and the first stages of the response resembled vacuolar type of cell death. The initial formation of numerous small cytoplasmic vacuoles and dilation of endoplasmic reticulum was followed first by fusion of smaller vacuoles with each other and with big vacuoles, and then by the appearance of autophagic vacuoles containing autophagic bodies. The final stages of cell death were accompanied by necrotic features including loss of plasmalemma integrity, shrinkage of the protoplast and unprocessed cellular components. In addition, we observed a gradual degradation of nuclear material. Our results demonstrate that cadmium‐induced plant cell death is a slow process featuring elements of vacuolar cell death and terminating with necrosis.  相似文献   

7.
The insect-parasitic female of Sphaerularia bombi everts its uterus and associated reproductive structures into the body cavity of its bumblebee host. This uterine sac then takes over the normal functions of the parasite and leads an independent existence. An examination of this sac shows that the surface of the uterine cells are differentiated into a network of saccular indentations separating off fine cytoplasmic extensions. The folding of adjacent cytoplasmic extensions around portions of the host''s hemolymph results in the formation of pinocytotic vacuoles. Intracellular vacuoles are also formed at the base of the saccular indentations. It appears that the first stage of intracellular digestion in S. bombi initially occurs by pinocytosis in the outer surface of the uterine cells. The inner and outer surfaces of the ovary and oviduct are modified into lobelike projections to increase the absorptive surface area, and electron-dense droplets originating in this tissue were also observed in the developing eggs. The hypothesis is presented that soluble nutrients are passed into the ovary-oviduct tissue where, after being reconstituted into droplets, they enter the developing eggs.  相似文献   

8.
The apical cells of Sphacelaria tribuloides Menegh. are larger than other thallus cells, contain more organelles and appear polarized. Their tip portion, where they grow, contains a well developed Golgi apparatus, abundant endoplasmic reticulum (ER) membranes, mitochondria, chloroplasts and a large number of small vacuoles. It seems likely that a continuous flow of membranous material from the ER membranes to the dictyosomes and from the latter to the plasmalemma of the extending tip portion takes place. In contrast, the basal pole possesses fewer organelles and is occupied mainly by large-sized, sometimes central vacuoles. The apical cells undergo two distinct types of highly asymmetrical differential divisions giving rise to cells of the thallus and hair initials. During the early stages of mitosis the nuclear envelope remains intact, except for fenestrated poles. Microtubules pass through the fenestrae into the nucleoplasm. During meta-phase, a typical chromosome plate is organized. The sites of attachment of spindle microtubules to the chromosomes are structurally different from the rest of the chromosomes. At late anaphase, the nuclear envelope breaks down completely. During telophase, a new membrane encloses the chromosomes which are decondensed and the nucleoli are reorganized. Cytokinesis proceeds long after mitosis at a stage in which the nuclei have increased in size and have moved farther apart. A membranous furrow develops centripetally, without the participation of microtubules. However, microtubules traverse the thin cytoplasmic strands which, in both interphase and cytokinetic cells, meander among the vacuoles of the basal pole of the cell and the internuclear space. Dictyosomes appear to be involved in the subsequent wall deposition.  相似文献   

9.
Summary Allerations in the localization of acid phosphatase inSaccharomyces cerevisiae during glucose repression and during autolysis have been studied. Cell morphology becomes distinctly changed after only 2 h in the presence of high glucose concentration while after 3 h of glucose repression the majority of the mitochondirial structures resemble promitochondria. Yeast cells repressed for 6 h contain almost completely degraded mitochondrial structures and numerous lipid droplets in the central vacuole and cytoplasm. Destruction of mitochondria is accompanied by the accumulation of acid phosphatase in these organelles and in the cytoplasm whereas its activity in the central vacuole is lowered, most probably because of the leakage of the enzyme into the cytoplasm.No preferential breakdown of mitochondria is observed during autolysis. On the contrary, mitochondria are apparently the last to be degraded. Digestion of cytoplasmic regions and membranous elements occurs intravacuolarly after sequestration by protrusions of the central vacuole which are formed at the initial stages of autolysis. Acid phosphatase is not released from the central vacuole, suggesting indirectly that vacuole enzymes do not migrate into the cytoplasm during autolysis.  相似文献   

10.
Thin sections of hamster kidney tissue cultures were examined by electron microscopy over a 7-day period after infection with Brucella abortus 3183. Numerous bacteria and structures resembling L-forms were present both intracellularly and extracellularly after the first 24 hr of infection. Most intracellular microorganisms were enclosed by a cytoplasmic membrane, but in a few instances no limiting membrane was detected. After 4 to 7 days, fewer microorganisms were present, and most normal-appearing bacteria were intracellular, particularly in antibiotic-treated cultures. Structures typical of Brucella L-forms were extracellular at the latter time intervals. Several structures were observed in cells from infected cultures whose relationship to the infecting organisms is not known. These consisted of various membranous structures within cytoplasmic vacuoles, myelin-like structures surrounding occasional intracellular organisms, and small bodies present within vacuoles and extracellularly. The latter structures observed throughout the experimental period appeared to occur more frequently as the duration of the infection increased.  相似文献   

11.
When Hymenoiepis nana eggs were inoculated orally into unimmunized mice, the oncosphere larvae penetrated the intestinal villi and underwent postembryonic development. The ultra-structural changes during the 48 h after infection were characterized by the development of microvillar protrusions on the surface of the epithelium, development of many membranous vesicles in the epithelium, and proliferation of undifferentiated cells in the parenchyma with a rapid disappearance of penetration gland cells and muscle cells. The epithelium of larvae from a challenge infection of mice that had been immunized by oral infection with eggs was severely damaged as shown by the increased electron density, shrinking of the cytoplasm and formation of large empty vacuoles. Development of microvillar protrusions and intraepithelial vesicles were not seen. Changes of internal structure were similar to those changes seen in the larvae of unimmunized mice. It was evident that host immunity, resulting in the ultimate death of challenge larvae during 24 h after challenge, was primarily directed against the epithelium of the larva. Host cells which firmly adhered to the larva in unimmunized mice were monocytes and macrophages with occasional infiltration of eosinophils and plasma cells, whereas the host cells in immunized mice were almost exclusively eosinophils and macrophages. It was suggested that the degeneration of larvae in immunized mice was caused by the action of specific antibody directed against larval epithelium. The cooperative action of antibody and eosinophils or macrophages in killing challenge larvae was also suggested.  相似文献   

12.
Fieran  B. A. 《Protoplasma》1971,72(1):1-18
Summary Vacuoles in plant cells often contain inclusions which at early stages of development are bounded by a single membrane. The inclusion bodies (IBs) comprise a diversity of forms and various stages of differentiation are recognizable. IBs are divided into two categories: those which have a matrix without internal membranes, and those which contain cytoplasmic organelles and other membranous material. The internal membranes may be tightly coiled or in the form of vesicles. IBs develop from invaginations of the tonoplast which become detached into the vacuole. They are initiated mainly during active cell growth but may remain within the vacuole in differentiated cells. Various components contribute to the contents of IBs: endoplasmic reticulum, nuclear envelope, Golgi vesicles, extruded portions of mitochondria and plastids, ribosomes and groundplasm. In most IBs the limiting membrane and contents eventually disappear within the vacuole. Some IBs prior to their breakdown within the vacuole also function as sites for the formation of material not found elsewhere in the cell. The disappearance of IBs from vacuoles suggests that such vacuoles behave as lysosomes.  相似文献   

13.
Food vacuoles were found in one species of pho‐totrophic Dinophysis, Dinophysis fortii Pavillard, collected in Okkirai Bay. Under transmission electron microscopy, almost 70% of observed food vacuoles were characterized by membranous profiles and contained large numbers of mitochondria. The mitochondria in the food vacuole had different morphologies from those in the D. fortii cytoplasm. This indicates that these vacuoles are not autolytic accumulation bodies, but ‘true’ food vacuoles. Identification of the origin of the contents failed, but the existence of large amounts of foreign mitochondria implies that the contents in the vacuoles were derived from eukaryotic prey. Other than the observation of the food vacuoles, bacterial cells were observed in the flagellar canal. Because the flagellar canal and connecting pusule sacs had been reported to relate to macromolecule uptake, the prey organisms of D. fortii were assumed to be both eukaryotic and prokaryotic organisms.  相似文献   

14.
A remarkable projection of bleblike protrusions, the expulsion of organelles into the protrusions formed on the apical surface, and the separation into the ventricular lumen of these protrusions was the general cellular response of choroidal epithelial cells to intravenous injection of cytochalasin D (CD). The compact microfilament mass and agglomeration of microtubules at the base of the cluster of protrusions reflect the results of cell contraction and displacement of microfilaments induced by CD. In earlier stages after intravenous injections of colchicine, an obvious increase in the number of various-sized vesicles, vacuoles, and lysosomes in the Golgi region was detected. In the later stages, these organelles were seen to accumulate in the basal portion of the epithelial cells. These changes were accompanied by an increase in vacuoles and the disorganization and displacement of the Golgi complex, and they coincided with a decrease in the number of microtubules in apical and basal cytoplasm. These findings suggest that the action of colchicine results in destruction of the three-dimensional architecture between cytoskeletal network and cell organelles. The present results suggest that the cytoskeletal network plays a role in the spatial coordination of the three-dimensional architecture of cell organelles. The study also indicates that the structural differences in the ventricles of the choroid plexus in drug-treated pigeons are manifestations of regional functional specialization in different parts of the ventricular system.  相似文献   

15.
The main structural features of male gametogenesis in Fucus serratus L. are described. The antheridial parent cells exhibit meristematic characteristics: large nucleus, dense cytoplasm, chloroplasts with few thylakoids. Synaptonemal complexes are frequently observed in the nuclei at the same time that microtubules are very abundant around the centrioles. Meiotic spindles are intranuclear, as are the mitotic spindles of the subsequent synchronous karyokineses. A nuclear membrane is present in all stages observed. Antheridial maturation is accompanied by multiplication of mitochondria and plastids as well as development of two major kinds of “vacuoles.” Cytokinesis proceeds with the progressive fusion of one of these types of vacuoles: this mode of cytoplasmic cleavage is unique among algae. Formation and differentiation of characteristic spermatozoid organelles (flagella, eyespot, proboscis) are also described.  相似文献   

16.
Park J  Knoblauch M  Okita TW  Edwards GE 《Planta》2009,229(2):369-382
Bienertia sinuspersici Akhani has an unusual mechanism of C4 photosynthesis which occurs within individual chlorenchyma cells. To perform C4, the mature cells have two cytoplasmic compartments consisting of a central (CCC) and a peripheral (PCC) domain containing dimorphic chloroplasts which are interconnected by cytoplasmic channels. Based on leaf development studies, young chlorenchyma cells have not developed the two cytoplasmic compartments and dimorphic chloroplasts. Fluorescent dyes which are targeted to membranes or to specific organelles were used to follow changes in cell structure and organelle distribution during formation of C4-type chlorenchyma. Chlorenchyma cell development was divided into four stages: 1—the nucleus and chloroplasts occupy much of the cytoplasmic space and only small vacuoles are formed; 2—development of larger vacuoles, formation of a pre-CCC with some scattered chloroplasts; 3—the vacuole expands, cells have directional growth; 4—mature stage, cells have become elongated, with a distinctive CCC and PCC joined by interconnecting cytoplasmic channels. By staining vacuoles with a fluorescent dye and constructing 3D images of chloroplasts, and by microinjecting a fluorescence dye into the vacuole of living cells, it was demonstrated that the mature cell has only one vacuole, which is traversed by cytoplasmic channels connecting the CCC with the PCC. Immunofluorescent studies on isolated chlorenchyma cells treated with cytoskeleton disrupting drugs suspended in different levels of osmoticum showed that both microtubules and actin filaments are important in maintaining the cytoplasmic domains. With prolonged exposure of plants to dim light, the cytoskeleton undergoes changes and there is a dramatic shift of the CCC from the center toward the distal end of the cell.  相似文献   

17.
SINGH  A. P. 《Annals of botany》1984,53(1):115-120
Coated vesicles in ray parenchyma cells of Pinus radiata needletraces were observed to form secondarily from smooth vesicles.The nascent coated vesicles were seen as small protrusions ofthe bounding membrane of smooth vesicles. Initially they wereellipsoidal or dome shaped, later becoming spheroidal. Althougha coat was observable at the spheroidal stage the coat was mostpronounced in vesicles that had separated from parent smoothvesicles. Coated vesicles were most common near dictyosomeswhere they were often seen in stages of formation from smoothvesicles and in the cortical cytoplasm near the plasmalemma.The plasmalemma developed small protrusions some of which appearedcoated at the cytoplasmic face. Coated vesicles, Pinus radiata, needle trace, ray parenchyma  相似文献   

18.
The process of expulsion of the nucleus during the transformation of the late erythroblast to reticulocyte is described. Erythroid clones taken from the spleen of lethally irradiated mice transplanted with syngeneic bone marrow were used. 10–12-day old isolated clones were fixed in glutaraldehyde, then in osmium tetroxide. Ultra-thin sections were stained with uranyl acetate and/or lead citrate before examination. Late (orthochromatic) erythroblasts develop pseudopod-like cytoplasmic protrusions into one of which the nucleus gradually penetrates, being deformed by the extrusion through the relatively narrow passage. During the whole process, mitochondria and vesicular and membranous elements are concentrated in the cytoplasm. Once outside the cell, the nucleus reassumes its rounded form. It is surrounded by a narrow rim of cytoplasm and structurally altered plasma membrane and is connected to the rest of the cell by a bridge. Elongated vacuoles appear within this bridge, with a resulting release of the enveloped nucleus which is soon phagocytized by macrophages; this leaves behind the newly formed reticulocyte. During this process, the cytoplasmic protrusions, the agglomeration of mitochondria, and the mode of separation of the nucleus from the rest of the cell are similar to those occurring in mitotic division.  相似文献   

19.
Summary Cytoplasmic cleavage in the gametangia and zoosporangia ofA. macrogynus was studied using monensin, an ionophore known to disrupt several endomembrane functions in plant and animal cells. Monensin interfered with normal gamete and zoospore formation in a dose dependent manner such that at a 20 M concentration very abnormal cells were released from the reproductive structures. It was evident that monensin's effect was most pronounced during the first 25 minutes of gametogenesis and parallels in time the onset and continuation of the cytoplasmic cleavage events. Observations using fluorescence and differential interference contrast microscopy indicated that the ionophore inhibited normal cytoplasmic cleavage resulting in the production of multinucleate cells, many of which had either no flagella or multiple flagella. Transmission electron microscopy showed that the monensin-treated gametangia had many large vacuoles which contained amorphous electron-opaque material. X-ray microprobe analysis demonstrated that the elemental composition of the large vacuoles was identical to that of the dense globular inclusions seen in untreated gametangia, and morphological analysis confirmed the relationship between these endomembrane structures. Thus this swollen endomembrane component probably is not involved in the cleavage process. Single endomembrane cisternae which were very common in untreated gametangia were seldom seen in monensin-treated preparations. Instead, many smaller electron-transparent vacuoles were observed. These swollen cisternae may both represent monensin-modified Golgi apparatus equivalents and/or play a critical role during the process of gametogenesis and zoosporogenesis inA. macrogynus.  相似文献   

20.
Summary The adventitious roots of onion (Allium cepa L.) or onion bulb scales were treated either with growth retardant Phosfon-D (2,4-dichlorobenzyltributylphosfonium chloride), or with low temperature (5° C). Low temperature, likewise Phosfon-D treatment, resulted in the appearance of membranous structures within the cytoplasm of the root cells fixed in chromaceto-formalin (CrAF) and in the occurrence of minute vacuoles in the living onion bulb scale cells. The cytochemical analysis revealed the membrane-like elements to contain basic and acid proteins as well as nucleic acids.It seems that the observed effect of Phosfon-D and that of low temperature were due to the local accumulation of protein resulting in changes of the physical properties of the cytoplasm. The fact that membranous structures do contain nucleic acid may suggest their important, metabolic role especially in the process of cold acclimation of plant tissue.This work was partly supported by Grant No. FG-PO-225 from U.S. Department of Agriculture, Agricultural Research Program, Public Law 480.  相似文献   

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