银耳（Tremella fuciformis）原基分化前期双核菌丝细胞和分生孢子的边缘体与质膜体

本文报道银耳（Ｔｒｅｍｅｌｌａｆｕｃｉｆｏｒｍｉｓ）原基分化前期．在双核菌丝的幼细胞、成熟细胞和分生孢子中,与质膜相关联的两类膜结构──边缘体和质膜体的形成与功能。根据相似结构的存在．支持小泡或多泡体排出质膜之外附在细胞壁上成为边缘体和参于细胞壁合成的假定。银耳原基分化前期．双核菌丝迅速分裂的幼细胞．其质膜内陷产生泡状质膜体,内含数个小泡,或产生膜状质膜体;在成熟细胞中．质膜内陷通常形成回旋的膜结构──膜状质膜体．内含１—２个电子致密小泡．当这两类质膜体脱离质膜进入细胞质后,有的膜层和小泡局部被消化．因此,推断质膜体具有内吞和输送养料的作用。另外．在桶孔隔膜闭塞一侧电子致密度高的细胞质中．还观察到一种罕见的只有单个膜层的质膜体．其内充满３个电子致密小泡．估计它的形成与功能同膜状质膜体相似。作者认为．桶孔闭塞和质膜体的出现是与银耳原基细胞分化有关联的两个重要特征。最后,在成熟细胞中,尚可以观察到质膜体的膜层能够散开形成内质网．因此．内质网也可以来源于质膜体。     

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     

On the ultrastructure of differentiating secondary xylem in willow

Summary Studies of differentiating xylem inSalix fragilis L. show the immediate cambial derivatives to be ultrastructurally similar. The Golgi apparatus is important at all stages of wall synthesis, possibly producing (amongst other substances) hemicellulose material which is carried to the wall in vesicles or multivesicular bodies. The endoplasmic reticulum also contributes one or more components to the developing wall: at some stages during differentiation the endoplasmic reticulum produces electron opaque bodies which appear to be guided towards the wall by microtubules. Compact structures formed from concentric membranes (myelin-like bodies) have been found joined to rough endoplasmic reticulum, but their presence is not explained.Two types of plasmalemma elaboration occur: invagination of the plasmalemma itself to form vesicles which may contain cytoplasmic material; and vesicles between the plasmalemma and cell wall which are the result of single vesicles or multivesicular bodies traversing the plasmalemma. Both systems provide a means for transporting cytoplasmic material across the plasmalemma.Microtubules have been seen associated with all vesicles derived from the cytoplasm which appear to be moving towards the wall. The presence of microtubules may generally be explained in terms of orientation of vesicles, even if they also happen coincidentally to parallel the supposed orientation of microfibrils in the wall itself. It is possible to resolve connections between the microtubules and the plasmalemma.     

Plasmalemmasomes in cotyledon leaves of germinating Vigna radiata L. (mung beans)

Abstract. Storage parenchyma, vascular parenchyma and phloem companion cells are found adjacent to sieve tubes in the vascular bundles of cotyledon leaves of mung bean ( Vigna radiata L.) seedlings. The paramural bodies of storage parenchyma cells are characterized by flask shaped invaginations of the plasmalemma whereas the plasmalemmasomes of the adjacent vascular parenchyma and companion cells consist of numerous finger-like evaginations which are not enclosed in plasmalemma pockets. Phloem associated transfer cells are not present and it is suggested that the fine tubular plasmalemmasomes may act as the interface between apoplast and symplast in the transport of rapidly mobilized reserves during germination. Tubular structures observed within the protoplasts of storage cells close to vascular tissue were also observed in vascular parenchyma and companion cells between the plasmalemmae and cell walls.     

Rhizobium sp. Degradation of Legume Root Hair Cell Wall at the Site of Infection Thread Origin

Using a new microinoculation technique, we demonstrated that penetration of Rhizobium sp. into the host root hair cell occurs at 20 to 22 h after inoculation. It did this by dissolving the cell wall maxtrix, leaving a layer of depolymerized wall microfibrils. Colony growth pressure “stretched” the weakened wall, forming a bulge into an interfacial zone between the wall and plasmalemma. At the same time vesicular bodies, similar to plasmalemmasomes, accumulated at the penetration site in a manner which parallels host-pathogen systems.     

蜜环菌成熟菌索的超微结构

用光学和电子显徽镜研究了生长在木材上的蜜环菌成熟菌索的超微结构。拟薄壁组织中有线粒体、内质网、核、液泡、质膜体、核糖体和典型的桶孔隔膜等。在菌索腔中疏松组织由薄壁菌丝、厚壁菌丝和非细胞衬质物质所组成,这些菌丝除了无隔孔帽的隔孔器和分散的核仁以外,见不到其它普通的细胞器,其最明显的特征是质壁分离和质膜断裂而卷曲,似乎是处在脱水状态。一旦它们进入新的寄主,一些普通细胞器就可出现。所以,可认为这些菌丝是处于休眠状态。对蜜环菌菌索的结构和功能的关系也进行了讨论。     

Cotton fibre differentiation: Occurrence and distribution of coated and smooth vesicles during primary and secondary wall formation

Summary Coated vesicles occur in differentiating cotton fibres during primary and secondary wall formation. The coated vesicles are often associated with the plasmalemma, or with membranes at the secreting face of dictyosomes, corresponding positionally to GERL. During secondary wall formation the number of dictyosome-associated coated vesicles seems to be smaller than during primary wall formation. When sections are stained for periodateoxidizable polysaccharides (Thiéry reaction) the membrane of plasmalemma-associated coated vesicles is intensely stained. The membrane of dictyosome-associated coated vesicles is only weakly stained. On the basis of the present evidence it is not possible to clearly decide, whether the staining in plasmalemma-associated coated vesicles is due to obliquely cut membrane or to vesicle contents. The vesicle coat material is not stained. Possible functions of coated vesicles in differentiating cotton fibres are discussed.Vesicles with contents positively stained with the Thiéry reaction are observed only during primary wall formation. The membrane of these vesicles is smooth and seems to bud from the same cisternae, probably GERL, as do the coated vesicles. During secondary wall formation no vesicles containing periodate-oxidizable polysaccharides could be detected, even under conditions that result in a strong, specific reaction in the cellulosic secondary wall. In some instances polysaccharidic material, resembling secondary wall material, has been seen to adhere to the outside of the plasmalemma. These results are consistent with the hypothesis that, in higher plants, at least part of primary wall material may already be synthesized in dictyosome vesicles, whereas cellulose biosynthesis occurs at the cell surface.     

ULTRASTRUCTURE OF CYST FORMATION IN OCHROMONAS TUBERCULATA (CHRYSOPHYCEAE)1

The cysts (statospores) of Ochromonas tuberculata Hibberd are produced within a cytoplasmic silica deposition vesicle (SDV) whose membrane (silicalemma) appears to be formed by the coalescence of golgi vesicles. Silica is first deposited as small nodules and the collar and spines develop by centrifugal growth only after a complete but still thin wall has been laid down. Small vesicles appear to be attached to the SDV only in the region overlying the developing collar; a cap of radially arranged, moderately electron-dense material occurs at the tip of the growing spines. The cyst pore is formed at the anterior end of the flagellate cell, by lack of silica deposition over a small region of the SDV and rupture of the SDV and other membranes crossing this region. When the cyst wall is complete, an extracystic plug is formed in the pore, resulting in the loss of some extracystic cytoplasm and the plasmalemma, and the inner SDV membrane becomes the functional plasmalemma. The plug develops first by coalescence with the cell membrane of golgi-derived vesicles containing dense but apparently nonsiliceous spicules surrounded by amorphous material. During later stages of plug formation only fibrous material is deposited, some of which may be extruded through the pore forcing out some of the spiculate component. Scanning electron micrographs of the mature wall show it is smooth except for the concentrically wrinkled inner face of the flared collar and that the real pore diameter is only ca. half that of the collar. At germination the plug completely disappears in an unknown way and a single cell, similar to a normal vegetative cell emerges through the pore. Chrysophycean cyst formation generally resembles cell wall formation in diatoms, but differs in some details.     

Further electron microscope studies of the conidium of Alternaria brassicicola

Summary The freeze-etching technique, aldehyde fixation and heavy metal shadowing of wall material were used in an electron microscope study of the maturing spores of Alternaria brassicicola (Schw.) Wiltshire. The walls are composed of fibres, probably of chitin. The plasmalemma has rectangular grooves in its outer surface and corresponding ridges on the inner one; both surfaces bear particles of two distinct sizes. Endoplasmic reticulum may be lamellated or vesicular and its involvement in wall formation is confirmed; vesicles produced by the endoplasmic reticulum fuse with the plasmalemma. The structure of nuclei, mitochondria and vacuoles is also demonstrated.     

Plasmalemmasomes and lomasomes in Candida albicans

Candida albicans possesses plasmalemmasomes and lomasomes whose origin, structure and distribution are described. It is suggested that plasmalemmasomes become lomasomes during cell wall synthesis. The endoplasmic reticulum and lomasomes may be regarded as the functional equivalent to the Golgi apparatus in C. albicans and this view is discussed.     

Developmental Features of Cell Wall Formation in Sieve Elements of the Grass Aegilops comosa var. thessalica

In differentiating sieve elements of Aegilops comosa var. thessalicadictyosomes are abundant and they produce numerous smooth vesicles.Coated vesicles seem to bud from smooth ones. Since both kindsof vesicles appear both in the cytoplasm and in associationwith the plasmalemma, it is proposed that they move to and fusewith the plasmalemma transferring products for cell wall synthesis.During differentiation sub-plasmalemmal microtubules are initiallyscarce and randomly oriented but soon afterwards they becomenumerous and transversely oriented to the long axis. Cellulosemicrofibrils in the cell wall appear to run parallel to themicrotubules and the latter may regulate microfibril orientation. Root protophloem sieve elements develop wave-like wall thickenings,which are, during development, overlaid by microtubules perpendicularto the long axis. Just after maturation these thickenings progressivelybecome smooth and finally the walls appear uniform in thickness.The wave-like wall thickenings may function as stored wall material,utilized in later stages of development when wall material willbe needed and its synthesis will be impossible because of theabsence of a synthesizing mechanism in the highly degraded protoplastsof mature sieve elements. It is suggested that in this way thethickenings may enable root protophloem sieve elements to growand keep pace with the active clongation of the surroundingcells. Aegilops comosa var. thessalica, sieve elements. cell wall, microtubules, dictyosomes, coated vesicles, wave-like thickenings     

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.     

The fine structure of psychrophilic and mesophilic Rhodotorula rubra

Transmission electron microscopy of thin sections of two mesophilic and a psychrophilic Rhodotorula rubra revealed structures normally associated with yeast. The capsule of all three strains was thicker in the cells grown in glucose than those grown in glucose-free media. The cell wall of all three strains showed more lamellae in the cells grown in a medium containing glycerol. Budding was of the Rhodoturula type. Endoplasmic reticula running parallel to the nucleus were commonly observed in the psychrophiles but not in the mesophiles. In the psychrophile, in association with the plasmalemma, lomasomes and plasmalemmasomes were observed. Giant mitochondria were commonly seen in the cells grown in a fermentable carbohydrate-free medium. Vacuoles were mostly empty.     

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.     

Membrane structures in the integumentary cell walls of the ovule of Nerium oleander

Summary Ultrastructural changes in the integumentary cell walls of Nerium oleander L. were observed, starting with the beginning of nucellus degeneration. The cell walls in direct contact with the nucellus, followed in a regular progression by those of the next 2–3 cell layers, were seen to increase rapidly in thickness and, in contact with the plasmalemma, to develop a peculiar layer characterized by the presence of numerous membrane-like structures. Morphological and cytochemical findings indicate a membraneous nature of these wall structures; the structures exhibit a marked affinity to potassium permanganate, ruthenium red and phosphotungstic acid, and possess a three-layered configuration. Moreover, the structures were found to be disorganized by phospholipase C. Some of the wall structures appear to be pitted, sac-shaped formations; others to be single sheets. Both types exhibit a direct continuity with the plasmalemma after digestion of the wall material by cellulase. The origin and development of these structures are discussed.     

Plasmalemmasome development in Trichophyton mentagrophytes grown at suboptimal temperature

When the dermatophytic fungus Trichophyton mentagrophytes is cultivated at the suboptimal temperature of 19 degrees C, the plasmalemma of the youngest cells appears to be associated with a variety of membranous bodies, the number of which is much greater than at the optimum temperature of 28 degrees C. These structures can be indicated as plasmalemmasomes both for morphological characteristics and cytochemical reactivity. A possible correlation between the suboptimal condition and plasmalemmasome ontogeny and function is proposed.     

分株紫萁卵发生的超微结构

用透射电镜对蕨类植物分枝紫其(Osmunda cinnamamae L. var.asiatica Fernald)卵发生进行了超微结构的研究.卵发生过程中,许多泡囊不仅移向细胞周围,而且在细胞质膜内排为一列,并通过胞吐作用聚集在细胞质膜外,它们释放或分泌嗜锇物质.观察到少数泡囊内含片层状结构的嗜饿物质紧贴于细胞质膜,似乎将其冲破.与此同时,在卵细胞和颈卵器壁之间形成分离腔,其宽度大于以往报道的真蕨类,在卵细胞质膜外出现额外的卵膜,其宽度大于蕨属和鳞毛蕨属.造粉体被大型常呈三角状半圆形或近椭圆形的淀粉粒所充满,当卵成熟时逐渐减少.核大型平扁状,核内出现2~3对平行的双层膜,紧贴核膜.未发现核外突.线粒体一度似不发育,最后恢复正常.     

Wall-to-membrane linkers in onion epidermis: some hypotheses

Wall-to-wall linkage may help maintain cell integrity and polarity, and focus mechanical stress from wall to mech-anotransductive ion channels within the plasm a lemma. When cells of onion bulb scale epidermis shrink during plasmolysis with CaCl₂, the plasmalemma remains attached to the cell wall by Hechtian strands which we hypothesize might possibly be drawn out from linkages fulfilling the above functions. We show that at least many of the attachment loci are independent of the plasmodesmata. A priori, wall glycoproteins seem good candidates for the wall-to-membrane linkers; therefore, we investigated the distribution in wall and plasmalemma of antigen recognized by antibody to hydroxyproline-rich glycoprotein (HRGP). Using fluorescent secondary antibodies, we showed that polyclonal antibodies prepared against wall HRGP from soybean bind to the onion walls (following mild depectination), but also bind to the plasmalemma after the wall is enzymatically digested. The distribution of the antibodies is punctate. On the plasmalemma, the points tend to be scattered more or less uniformly, but can cluster at termini of large streaming strands (which rarely form in wall-constrained cells.) These streaming strands can be seen to exert tension on the membrane. We hypothesize that (1) the antigen on the surface of the protoplast may correspond to the antigen in the walls, (2) such antigen may be responsible for adhesion of membrane to wall at the linkage sites visualized by CaCl₂ plasmolysis, and (3) the linkage sites may be transmembrane proteins to which cytoskeleton can attach at the inner surface.     

Arabinogalactan-rich glycoproteins are localized on the cell surface and in intravacuolar multivesicular bodies

We investigated the subcellular distribution of antigenic sites immunoreactive to the monoclonal antibody 16.4B4 (PM Norman, VPM Wingate, MS Fitter, CJ Lamb [1986] Planta 167: 452-459) in tobacco (Nicotiana tabacum) leaf cells. This antibody is directed against a glycan epitope in a family of plasma membrane arabinogalactan proteins of 135 to 180 kilodaltons, elaborated from a polypeptide of relative molecular mass 50 kilodaltons (PM Norman, P Kjellbom, DJ Bradley, MG Hahn, CJ Lamb [1990] Planta 181: 365-373). We demonstrated by immunogold electron microscopy that the epitope reactive with monoclonal antibody 16.4B4 is localized on the cell surface in the leaf parenchyma cell periplast. The 16.4B4 antigen is also localized in multivesicular invaginations of the plasma membrane also known as plasmalemmasomes, implying a biochemical and, hence, functional interrelationship between these structures. Monoclonal antibody 16.4B4 also labels intracellular multivesicular bodies that appear to represent internalized plasmalemmasomes. Antibody reactivity was also observed in partially degraded multivesicular bodies sequestered within the central vacuole. We propose that the subcellular distribution of the epitope reactive with monoclonal antibody 16.4B4 defines a plasmalemmasome (or multivesicular body-mediated) pathway for the internalization of the periplasmic matrix for vacuolar mediated disposal. The multivesicular bodies appear to be equivalent to the well-characterized endosomes and multivesicular bodies of animal cells involved in the internalization and lysosome-mediated degradation of extracellular materials.     

分株紫萁卵发生的超微结构

用透射电镜对蕨类植物分枝紫萁(Osmunda cinnamamae L. var. asiatica Fernald)卵发牛进行了超微结构的研究。卵发生过程中,许多泡囊不仅移向细胞周围,而且在细胞质膜内排为一列,并通过胞吐作用聚集在细胞质膜外,它们释放或分泌嗜锇物质。观察到少数泡囊内含片层状结构的嗜饿物质紧贴于细胞质膜,似乎将其冲破。与此同时,在卵细胞和颈卵器壁之问形成分离腔,其宽度大于以往报道的真蕨类,在卵细胞质膜外出现额外的卵膜,其宽度大于蕨属和鳞毛蕨属。造粉体被大型常呈三角状半圆形或近椭圆形的淀粉粒所充满,当卵成熟时逐渐减少。核大型平扁状,核内出现2-3对平行的双层膜,紧贴核膜。未发现核外突。线粒体一度似不发育,最后恢复正常。