Ultrastructure of detergent-resistant cytoskeletons in the noncortical domain of sea urchin eggs as revealed by the quick-freeze deep-etch technique.

The ultrastructure of detergent-resistant cytoskeletons in the noncortical cytoplasm of sea urchin eggs was studied by quick-freeze, deep-etch electron microscopy. Two different cytoskeletal organizations were identified in the detergent-treated sea urchin eggs. They were distinguished by the presence or the absence of long actin filaments and probably correspond to the cortex and the noncortical cytoplasm, respectively. The non-cortical cytoplasm was composed of a complex network (designated here as the ground network) of filaments 6 to 13 nm in diameter, that interconnected aggregates of small globular materials, yolk granules and a meshwork of uniform filaments (8-9 nm in diameter). The 6 to 13 nm filaments comprising the ground network were branched and associated with filaments of the same or other sizes, resulting in the formation of an extremely complex network. The meshwork of 8-9 nm filaments was homogeneous in composition and constitutes a novel structure which has not been previously described. The 8-9 nm filaments were connected to one another at their ends, forming a meshwork of polygons. Meshworks, ranging up to 3 microns in diameter, were distributed throughout the non-cortical cytoplasm of the egg. Similar cytoplasmic structures were also observed in fertilized eggs.     

Actin filaments in sensory hairs of inner ear receptor cells

Receptor cells in the ear are excited through the bending of sensory hairs which project in a bundle from their surface. The individual stereocilia of a bundle contain filaments about 5 nm in diameter. The identity of these filaments has been investigated in the crista ampullaris of the frog and guinea pig by a technique of decoration with subfragment-1 of myosin (S-1). After demembranation with Triton X-100 and incubation with S-1, "arrowhead" formation was observed along the filaments of the stereocilia and their rootlets and also along filaments in the cuticular plate inside the receptor cell. The distance between attached S-1 was 35 nm and arrowheads pointed in towards the cell soma. It is concluded that the filaments of stereocilia are composed of actin.     

Ultrastructural and immunocytochemical studies on the cytoskeleton in the anterior pituitary of rats,with special regard to the relationship between actin filaments and secretory granules

Summary As previously reported, in anterior pituitary cells of the rat, secretory granules are linked with adjacent granules, cytoorganelles, microtubules, and plasma membrane by thin filaments, 4–10 nm in diameter. The quick-freeze, deep-etching method revealed that some of the filaments linking adjacent secretory granules show 5 nm-spaced striations on their surface which are known to be characteristic of actin. Immunocytochemistry showed that actin is localized in the cytoplasm beneath the plasma membrane, and around or between secretory granules. The heavy meromyosin decoration method demonstrated that actin filaments are mainly located in the cytoplasm beneath the plasma membrane, while some actin filaments are connected with the limiting membrane of the secretory granules. The actin filaments associated with the secretory granules are considered to be involved in the intracellular transport of the granules, while those localized in the peripheral cytoplasmic matrix might control the approach of the secretory granules to the plasma membrane and their release.This study was supported in part by grants from the Research Fund of the Ministry of Education, Science, and Culture, Japan     

Fibrillar and tubular fine structures in the cytoplasm of Entamoeba histolytica (author's transl)]

The electron-microscopical study of conventional fixed and contrasted Entamoeba histolytica-trophozoites from Diamonds monoxenic TTY-medium revealed "thick fibrils" in the vesicular cytoplasm of the parasites. They are 9-14 nm in diameter and are therefore considered to be myosin-like filaments, that are spread mainly in the tail or the uroid of the moving ameba. No association with microfilaments (MF) or other organelles could be observed. During the same investigation microtubules (MT) of variable length are described having a diameter of 35 nm, surrounded by a 19-25 nm wide capsule. They are distributed singly or in bundles with a maximal diameter of 350 nm. Some of the MT were coiled up to a helical shape.     

Crystal formation of swine vesicular disease virus in porcine kidney cells (IB-RS-2 cells)

Crystal formation of swine vesicular disease virus (SVDV) in IB-RS-2 cells was studied by electron microscopy. Cells were harvested 0, 3, 3.5, 4, 4.5, 5, 6 and 7 hours after inoculation. Crystalline arrays of SVDV was first observed in the cytoplasm of a few cells 4.5 hours after inoculation. In the cytoplasm of many cells harvested at 5 hours, 1 to 3 crystalline arrays of SVDV were observed. After that, a small number of cells had crystalline arrays in the cytoplasm. The cells with crystalline arrays were rich in ribosome and polysome with dilated mitochondria and many tiny vesicles. An individual virus particle was ca. 18 nm in diameter, and the center-to-center space ca. 22 nm. Crystalline arrays varied in size depending on the plane of section.     

Characteristics of the structural organization of the cytoskeleton in suspension and monolayer sublines of mouse fibroblasts depending upon the type of growth in culture

In attached cells, the main part of filaments is localized in submembrane area, whereas suspension fibroblasts are situated deeper in the cytoplasm. Another difference involves the form of filament gatherings. In the former these are bundles stretched parallel to the cell surface, whereas in the latter these gatherings are in the form of loose balls near the nucleus. According to their diameter and type of cell localization the latter filaments are similar to intermediate ones. In suspension cells with caps formed by ligand treatment, gatherings of fibrillar elements are observed within the cytoplasm but these filaments are shorter and looser, being located in disorder. In addition, the increase in the number of electron dense granules of unknown nature is observed between these filaments. The above observations suggest that the surface processes may be associated with the inner parts of cytoskeleton.     

Cytoskeletal reorganization of human platelets after stimulation revealed by the quick-freeze deep-etch technique

We studied the cytoskeletal reorganization of saponized human platelets after stimulation by using the quick-freeze deep-etch technique, and examined the localization of myosin in thrombin-treated platelets by immunocytochemistry at the electron microscopic level. In unstimulated saponized platelets we observed cross-bridges between: adjoining microtubules, adjoining actin filaments, microtubules and actin filaments, and actin filaments and plasma membranes. After activation with 1 U/ml thrombin for 3 min, massive arrays of actin filaments with mixed polarity were found in the cytoplasm. Two types of cross-bridges between actin filaments were observed: short cross-bridges (11 +/- 2 nm), just like those observed in the resting platelets, and longer ones (22 +/- 3 nm). Actin filaments were linked with the plasma membrane via fine short filaments and sometimes ended on the membrane. Actin filaments and microtubules frequently ran close to the membrane organelles. We also found that actin filaments were associated by end-on attachments with some organelles. Decoration with subfragment 1 of myosin revealed that all the actin filaments associated end-on with the membrane pointed away in their polarity. Immunocytochemical study revealed that myosin was present in the saponin-extracted cytoskeleton after activation and that myosin was localized on the filamentous network. The results suggest that myosin forms a gel with actin filaments in activated platelets. Close associations between actin filaments and organelles in activated platelets suggests that contraction of this actomyosin gel could bring about the observed centralization of organelles.     

Intermediate filament proteins in nonfilamentous structures: Transient disintegration and inclusion of subunit proteins in granular aggregates

The intermediate filament cytoskeleton of cultured bovine kidney epithelial cells and human HeLa cells changes dramatically during mitosis. The bundles of cytokeratin and vimentin filaments progressively unravel into protofilament-like threads of 2–4 nm diameter, and intermediate filament protein is included in numerous, variously sized (2–15 μm) spheroidal aggregates containing densely stained granular particles of 5–16 nm diameter. We describe these mitotic bodies in intact cells and in isolated cytoskeletons. In metaphase to anaphase of normal mitosis and after colcemid arrest of mitotic stages, many cells contain all their detectable cytokeratin and vimentin material in the form of such spheroidal aggregate bodies, whereas in other mitotic cells such bodies occur simultaneously with bundles of residual intermediate filaments. In telophase, the extended normal arrays of intermediate filament bundles are gradually reestablished. We find that vimentin and cytokeratins can be organized in structures other than intermediate filaments. Thus, at least during mitosis of some cell types, factors occur that promote unraveling of intermediate filaments into protofilament-like threads and organization of intermediate filament proteins into distinct granules that form large aggregate bodies. Some cells, at least certain epithelial and carcinoma cells, may contain factors effective in structural modulation and reorganization of intermediate filaments.     

Connections of intermediate filaments with the nuclear lamina and the cell periphery

We investigated the relationship between intermediate filaments (IFs) and other detergent- and nuclease-resistant filamentous structures of cultured liver epithelial cells (T51B cell line) using whole mount unembedded preparations which were sequentially extracted with Triton X-100 and nucleases. Immunogold labelling and stereoscopic observation facilitated the examination of each filamentous structure and their three-dimensional relationships to each other. After solubilizing phospholipid, nucleic acid and soluble cellular protein, the resulting cytoskeleton preparation consisted of a network of cytokeratin and vimentin IFs linked by 3 nm filaments. The IFs were anchored to and determined the position of the nuclear lamina filaments (NLF) network and the centrioles. The NLF was composed of the nuclear lamina filaments measuring 3-6 nm in diameter which radiated from and anchored to the skeleton of the nuclear pores. The IFs located in the nuclear region appeared to be interwoven with the NLF. At the cell surface, the IFs seemed to be attached to the putative actin filament network. They formed a focally interrupted plexus-like structure at the cell periphery. Fragments of vimentin filaments were found among the filamentous network located at the cell surface, and some filaments terminated blindly there.     

Cytoskeletal organization of the presynaptic nerve terminal and the acetylcholine receptor cluster in cell cultures

Whole-mount stereo electron microscopy has been used to examine the cytoskeletal organization of the presynaptic nerve terminal and the acetylcholine receptor (AChR) clusters in cultures of Xenopus nerve and muscle cells. The cells were grown on Formvar-coated gold electron microscope (EM) finder grids. AChR clusters were identified in live cultures by fluorescence microscopy after labeling with tetramethylrhodamine-conjugated alpha-bungarotoxin. After chemical fixation and critical-point drying, the cytoplasmic specializations of identified cells were examined in whole mount under an electron microscope. In the presynaptic nerve terminal opposite to the AChR cluster, synaptic vesicles were clearly suspended in a lattice of 5-12- nm filaments. Stereo microscopy showed that these filaments directly contacted the vesicles. This lattice was also contiguous with the filament bundle that formed the core of the axon. At the AChR cluster, an increased cytoplasmic density differentiated this area from the rest of the cytoplasm. This density was composed of a meshwork of filaments with a mean diameter of 6 nm and irregularly shaped membrane cisternae 0.1-0.5 micron in width, which resembled the smooth endoplasmic reticulum. These membrane structures were interconnected via the filaments. Organelles that were characteristic of the bulk of the sarcoplasm such as the rough endoplasmic reticulum and the polysomes, were absent from the cytoplasm associated with the AChR cluster. These results indicate that the cytoskeleton may play an important role in the development and/or the maintenance of the neuromuscular synapse, including the release of transmitter in the nerve terminal and the clustering of AChRs in the postsynaptic membrane.     

Basic types and vital forms of human peripheral and PHA-stimulated lymphocytes studied in vitro

Natural diversity in peripheral and PHA-stimulated lymphocytes seen in the same donors was studied using digitized streak photo of living cells in observational camera. Cells were monitored for 5-8 h at the superior limit of optical resolution by means of phase-contrast microscopy. Intact lymphocytes were observed in autological blood plasma, and PHA-stimulated lymphocytes were examined in self-conditioned centrifuged growth medium. The majority of intact cells were small- and middle-sized floating lymphocytes with microvilli, and middle-sized caudate lymphocytes capable of stick-slip motion. The lesser part consisted of "spread-eagle" or movable forms of both large granular lymphocytes and middle-sized lymphocytes of several types: narrow-plasm lymphocytes with lamellipodia, wide-plasm lymphocytes without cytoplasmic processes, lymphocytes with single pseudopodia, and lymphocytes with single lobopodia of complex shape. On the contrary, the minor fraction of PHA-stimulated lymphocytes of 3 day old cultures contained floating cells with microvilli or floating cells with microvilli and two pseudopodia, whereas the majority of these lymphocytes were spread-eagle or movable forms of cells of different type. These substrate-adhesive PHA-stimulated lymphocytes had well defined apical and basal cell surfaces, but upon mechanical stress are easily pinched off to become ball-shaped. At least 6 different cell types were distinguished among substrate-adhesive PHA-stimulated lymphocytes, with more than half of these being heavily vacuolated spheroid lymphocytes prone to forming cell clusters. The rest PHA-stimulated lymphocytes were represented by signet-ring lymphocytes with dark or light cytoplasm, narrow-plasm lymphocytes with large prolonged nuclei and lamellipodia, lymphocytes with single lobopodia, and lymphocytes with single spiral structures in the cytoplasm. The spiral structure is 10-11 microns in length and 0.5-0.7 micron in width, being presumably a mitochondrion or a group of butt-joined mitochondria. Since some of the caudate middle-sized lymphocytes also contain this structure, these may be regarded as putative precursors of respective type of PHA-stimulated lymphocytes. Under the conditions of observation, interphase nuclei of all live PHA-stimulated lymphocytes were seen to contain numerous globular or fiber structures of condensed chromatin made of 0.3-0.8 micron beads. These beads are doubtless interphase chromomeres.     

Ultrastructural study of crystalloids in Sertoli cells of the normal,intersex and experimental cryptorchid swine

Spindle- or needle-shaped crystalloids are observed in Sertoli cells of the intersex and experimental cryptorchid swine in the light and electron microscopes. Small crystalloids are also observed in Sertoli cells of the normal swine only by electron microscopy. These crystalloids consist of fine filaments. The filaments are about 5 nm in diameter and arranged parallel to the long axis of the drystalloid. In cross sections of the crystalloid, the close backing of the filaments shows hexagonal arrays. The interfilamentous distance is about 5 nm. In all animals, bundles of short filaments, which are 5nm in diameter, are observed in the basal part of the Sertoli cells. Ultrastructural similarities among the crystalloids, the bundles of fine filaments, and the filamentous layer in the junctional specialization of the Sertoli cell are shown. These morphological similarities suggest that the crystalloids are formed by the aggregation of the bundles in the Sertoli cells of azoospermic testes.     

Cytological identification of the lymphocytes in highly leukemic AKR/J mice in ontogenesis. Effect of somatotropin on the cellular composition of the lymphoid organs]

In AKR/J mice lymphocytes of thymus, spleen and lymph nodes can be classified according to their morphology as revealed by the Stockinger and Kellner staining: I--basophilic cytoplasm, 1--3 large basophilic nucleoli (blast cells), II--basophilic cytoplasm, 1--4 small clearly visible nucleoli (T-lymphocytes), III-weakly basophilic cytoplasm, 1-4 small fairly visible nucleoli (B-lymphocytes). The number of cells of types I and II increases with the progressing of leucaemia. After the administration of somatotrophic hormone the number of cells of types I and II increases only in the lymphoid organs of 5 months old AKR/J mice.     

Ultrastructure of the synaptic ribbons in photoreceptor cells of Rana catesbeiana revealed by freeze-etching and freeze-substitution

Summary The three-dimensional structure of synaptic ribbons in photoreceptor cells of the frog retina was studied with freeze-etching and freeze-substitution methods, combined with a rapid-freezing technique. Although the synaptic ribbon consisted of two electron-dense plaques bisected by an electron-lucent layer in conventional thin sections, such lamellar nature was not so evident in freeze-etched replicas. The cytoplasmic surfaces of the synaptic ribbon presented an extremely regular arrangements of small particles 4–6 nm in diameter. Fine filaments 8–10 nm in diameter and 30–50 nm in length connected synaptic vesicles and the ribbon surface. These connections were mediated by large particles on both ends of the filaments. Approximately 3–5 filaments attached to one synaptic vesicle. Synaptic ribbons were anchored to a characteristic meshwork underlying the presynaptic membrane via another group of similar fine filaments. The meshwork seemed to be an etched replicated image of the presynaptic archiform density observed in thin sections.     

Comparison of the three-dimensional organization of unextracted and Triton-extracted human neutrophilic polymorphonuclear leukocytes

The three-dimensional organization of the cytoplasm of randomly migrating neutrophils was studied by stereo high-voltage electron microscopy. Examination of whole-mount preparations reveals with unusual clarity the structure of the cytoplasmic ground substance and cytoskeletal organization; similar clarity is not observed in conventional sections. An extensive three-dimensional network of fine filaments (microtrabeculae) approximately 7 to 17 nm in diameter extends throughout the cytoplasm and between the two cell cortices; it also comprises the membrane ruffles and filopodia. The granules are dispersed within the lattice and are surrounded by microtrabeculae. The lattice appears to include dense foci from which the microtrabeculae emerge. Triton X-100 dissolves the plasma membrane, most of the granules, and many of the microtrabecular strands and leaves as a more stable structure a cytoskeletal network composed of various filaments and microtubules. Heavy meromyosin-subfragment 1 (S1) decoration discloses actin filaments as the major filamentous component present in membrane ruffles and filopodia. Actin filaments, extending from the leading edge of the cells, are of uniform polarity, with arrowheads pointing towards the cell body. Likewise, the filaments forming the core of filopodia have the barbed end distal. End-to-side associations of actin filaments as well as fine filaments (2--3 nm) which are not decorated with S1 and link actin filaments are observed. The ventral cell cortex includes numerous substrate-associated dense foci with actin filaments radiating from the dense center. Virtually all the microtubules extend from the centrosome. An average of 35 +/- 7 microtubules originate near the pair of centrioles and radiate towards the cell periphery; microtubule fragments are rare. Intermediate filaments form an open network of single filaments in the perinuclear space. Comparison of Triton-extracted and unextracted cells suggest that many of the filamentous strands seen in unextracted cells have as a core a stable actin filament.     

Ultrastructure of the human erythrocyte cytoskeleton and its attachment to the membrane

We attached paraformaldehyde-fixed human erythrocyte ghosts to coated coverslips and sheared them to expose the cytoskeleton. Quick-freeze, deep-etch, rotary-replication, or tannic acid/osmium fixation and plastic embedding revealed the cytoskeleton as a dense network of intersecting straight filaments. Previous negative stain studies on spread skeletons found 5-6 spectrin tetramers intersecting at each actin oligomer, with an estimated 250 such intersections/microns 2 of membrane. In contrast, we found 3-4 filaments at each intersection and approximately 400 intersections/microns 2 of membrane. Immunogold labeling verified that the filaments were spectrin, but their lengths (29-37 nm) were approximately one-third that of extended spectrin dimers. The length and diameter of the filaments were sufficient to accommodate spectrin dimers, but not spectrin tetramers. Our results suggest that, in situ, spectrin dimers may associate as hexamers and octamers, rather than tetramers. We present several explanations that can reconcile our observations on intact cytoskeletons with previous reports on spread material. Extracting sheared ghosts with solutions of low ionic strength removed the cytoskeleton to reveal projections from the cytoplasmic surface of the membrane. These projections contained band 3, as shown by immunogold labeling, and they aggregated to a similar extent as intramembrane particles (IMP) when the cytoskeleton was removed, suggesting a direct relationship between these structures. Quantification indicated a stoichiometry of 2 IMP for each cytoplasmic projection. Cytoplasmic projections presumably contain other proteins besides band 3 since further treatment with high ionic strength solutions extracts peripheral proteins and reduces the diameter of projections by approximately 3 nm.     

Comparison of Subacute Sclerosing Panencephalitis and Measles Viruses: an Electron Microscope Study

The ultrastructure of CV-1 cells infected with subacute sclerosing panencephalitis (SSPE) viruses was compared with that of CV-1 cells infected with the wild or Edmonston strain of measles virus. Both SSPE viruses and the measles viruses produced two types of nucleocapsid structures: smooth filaments, 15 to 17 nm in diameter, and granular filaments, 22 to 25 nm. The smooth and granular filaments produced by SSPE and measles virus did not differ in appearance. In CV-1 cells infected with SSPE viruses, smooth filaments formed large intranuclear inclusions and granular filaments occupied a large area of the cytoplasm, but always spared the area under the cell membrane. Particles budding from the surface of these cells contained no nucleocapsids. In CV-1 cells infected with measles virus, only small aggregates of smooth filaments were seen in the nuclei. Granular filaments in the cytoplasm predominantly occupied the area under the cell membrane, and were aligned beneath the cell membrane in a parallel fashion and assembled into budding particles. These differences between SSPE and measles virus may be regarded as quantitative, but they do distinguish SSPE viruses from measles virus. Moreover, the formation of large nuclear inclusions filled with smooth filaments appears to be a characteristic process of SSPE, but not of measles, since this type of inclusion is invariably seen in SSPE brain tissues, brain cultures derived from them, and CV-1 cells infected with SSPE viruses.     

Morphology of the air-breathing stomach of the catfish Hypostomus plecostomus

Histological and ultrastructural investigations of the stomach of the catfish Hypostomus plecostomus show that its structure is different from that typical of the stomachs of other teleostean fishes: the wall is thin and transparent, while the mucosal layer is smooth and devoid of folds. The epithelium lining the whole internal surface of the stomach consists of several types of cells, the most prominent being flattened respiratory epithelial cells. There are also two types of gastric gland cells, three types of endocrine cells (EC), and basal cells. The epithelial layer is underlain by capillaries of a diameter ranging from 6.1-13.1 microm. Capillaries are more numerous in the anterior part of the stomach, where the mean number of capillary sections per 100 microm of epithelium length is 4, compared with 3 in the posterior part. The cytoplasm of the epithelial cells, apart from its typical organelles, contains electron-dense and lamellar bodies at different stages of maturation, which form the sites of accumulation of surfactant. Small, electron-dense vesicles containing acidic mucopolysaccharides are found in the apical parts of some respiratory epithelial cells. Numerous gastric glands (2 glands per 100 microm of epithelium length), composed of two types of pyramidal cells, extend from the surface epithelium into the subjacent lamina propria. The gland outlets, as well as the apical cytoplasm of the cells are Alcian blue-positive, indicating the presence of acidic mucopolysaccharides. Zymogen granules have not been found, but the apical parts of cells contain vesicles of variable electron density. The cytoplasm of the gastric gland cells also contains numerous electron-dense and lamellar bodies. Gastric gland cells with electron-dense cytoplasm and tubulovesicular system are probably involved in the production of hydrochloric acid. Fixation with tannic acid as well as with ruthenium red revealed a thin layer of phospholipids and glycosaminoglycans covering the entire inner surface of the stomach. In regions of the epithelium where the capillaries are covered by the thin cytoplasmic sheets of the respiratory epithelial cells, a thin air-blood barrier (0.25-2.02 microm) is formed, thus enabling gaseous exchange. Relatively numerous pores closed by diaphragms are seen in the endothelium lining the apical and lateral parts of the capillaries. Between gastric gland cells, solitary, noninnervated endocrine cells (EC) of three types were found. EC are characterized by lighter cytoplasm than the surrounding cells and they contain dense core vesicles (DCV) with a halo between the electron-dense core and the limiting membrane. EC of type I are the most abundant. They are of an open type, reaching the stomach lumen. The round DCV of this type, with a diameter from 92-194 nm, have a centrally located core surrounded by a narrow halo. EC of type II are rarely observed and are of a closed type. They possess two kinds of DCV with a very narrow halo. The majority of them are round, with a diameter ranging from 88-177 nm, while elongated ones, 159-389 nm long, are rare. EC of type III are numerous and also closed. The whole cytoplasm is filled with large DCV: round, with a diameter from 123-283 nm, and oval, 230-371 nm long, both with a core of irregular shape and a wide, irregular halo. EC are involved in the regulation of digestion and probably local gas exchange. In conclusion, the thin-walled stomach of Hypostomus plecostomus, with its rich network of capillaries, has a morphology suggesting it is an efficient organ for air breathing.     

A structural comparison of tryptic fragments of three types of intermediate filaments

We have compared tryptic fragments of three types of intermediate filaments, emphasizing structural characteristics as seen in the electron microscope. Variable, long alpha-helical rod fragments were found to be similar for keratin, neurofilaments and desmin filaments. Short rod fragments from keratin and neurofilaments appeared similar when observed by electron microscopy. Short rod fragments were not seen in desmin filament digests. In addition to these elongated particles, globular fragments, which have not been described previously, were obtained from all three types of intermediate filaments. These globular fragments were characterized by gel filtration and electron microscopy, and compared to globular proteins of known size using both methods. The diameter was about 6 nm and the molecular weight was estimated to be 50 000-60 000. These globular particles may comprise the short, nonhelical regions from several IF protein subunits, which are clustered into an interface in the intact filament or protofilaments.     

The Abutilon Mosaic Virus (AbMV) in Different Leaf Tissues of Several Host Species of Malvaceae

Cytological changes occurring after infection by Abutilon Mosaic Virus (AbMV) have been investigated in the host plants Abutilon sellovianum Rgl., Malva parviflora L., Malva silvestris L., and Sida micrantha Schr. Two types of virus-like inclusions were found in different tissues: particles of 16–18 nm in diameter and elongated filaments with 6–8 nm in diameter. The particles are detectable in the nuclei (Abutilon sellovianum, Malva spec.) and cytoplasm (Malva spec.) of cells in the bundle area, and the filaments accumulate in the nuclei (Sida micrantha) and the plastids (Malva spec.) of leaf mesophyll cells.