Microtubule-like structures in the growing plastids or chloroplasts of two algae

Summary During oogenesis in Chara fibrosa, and in the enlarging, young daughter coenobia of Volvox spec., microtubule-like structures were found in growing plastids. These were appreciably bigger than the usual 240 Å cytoplasmic microtubules, measuring about 320 Å in diameter; a helical or banded organisation in the wall of these tubules was also evident. The tubules were generally present in greatest numbers when the plastids were elongating or enlarging.     

An observation of fine tubules within the endoplasmic reticulum in a dog liver

Summary During a survey of liver tissue from 100 dogs, fine tubules were observed within the cisternae of the endoplasmic reticulum of hepatocytes in one dog. The tubules were 300 Å in diameter with electron dense walls of 100 Å thickness. Many cells contained the tubules but their significance is unknown. The tubules varied from other reported microtubules in their location, size and characteristics of fixation and staining.     

The T-tubule system in the myocardia of the sand rat and mouse as demonstrated by horseradish peroxidase

Summary The transverse tubule (T-tubule) system in papillary muscles of the sand rat and the mouse were studied with the aid of a diffusion tracer (horseradish peroxidase). The T-tubule system in the sand rat showed a typical mammalian pattern with sarcolemmal tubules invaginating at the Z-band level of the sarcomere. These tubules follow a transverse direction in the cell with frequent longitudinal side-branches which connect tubules at different Z-band levels. In the mouse myocardium, the T-tubules also start as lateral invaginations from the sarcolemma at the Z-band levels. In the cell interior, however, the tubules ramify and brake up into a complicated system of spirally running tubules. These spirals, of relative small diameter (400Å–700Å), frequently expand and form lobulated cisternae at the Z-band levels.     

Observations on tubules derived from the endoplasmic reticulum in leaf glands ofPhaseolus vulgaris

Summary Tubular systems present in bean leaf glands have been studied electron microscopically. Ordered arrays of small tubules (290 Å in diameter) arise from the endoplasmic reticulum in early stages of gland development and remain connected to it. Subsequently larger tubules (560–660 Å in diameter) appear among the smaller tubules and gradually replace many of them. The large tubules are not connected to the endoplasmic reticulum. They contain an electron dense material and their walls exhibit a patterned substructure. In older gland cells the bundles of large tubules run randomly through the cytoplasm. The relationship of the two types of gland tubules to conventional microtubules has been examined morphologically and experimentally. The small tubules have larger diameters and thicker walls than microtubules. Neither type of gland tubule is affected by low temperature or colchicine, or, in thin sections, by pepsin digestion. This suggests that these tubules are not closely related chemically to either cytoplasmic or ciliary microtubules. The two systems of tubules are closely associated with prominent protein vacuoles in the gland cells, but are not directly connected to them.This work was supported in part by grant no. GB-6161 from the National Science Foundation.     

Kristalloide Einschlüsse im Zytoplasma pflanzlicher Zellen

Summary In healthy as well as dahlia mosaic sick plants ofVerbesina encelioides, Sanvitalia procumbens, Zinnia elegans, Calendula spec. andDahlia hybrids, leaf cell vacuoles are found in the marginal cytoplasm which contain protein crystals. They are single membrane-limited products of the endoplasmatic reticulum. They may be found mainly in the older leaves and especially in those of virus infected plants. The crystalline structures consist of tetragonally arranged tubules of 105 Å in diameter, separated by an interspace about 35 Å wide. There are similar structures in virus infected plants ofFragaria vesca, but not inChenopodium quinoa, where the vacuoles contain no bodies. This cell organelle is compared with crystalline inclusions already described. Its significance and relations to the virus disease are discussed.     

Morphology of egg phosphatidylcholine-cholesterol single-bilayer vesicles,studied by freeze-etch electron microscopy

Summary Homogeneous, small, single-bilayer vesicles were prepared from egg phosphatidylcholine with various concentrations of cholesterol by ultrasonic dispersion in 0.1m KCl, 0.01m Tris, pH 8.0, buffer, followed by gel chromatography. The shape and size distributions of the fractionated vesicles were investigated for preparations with cholesterol compositions from 0 to 50 moles/100 moles, using freeze-etch electron microscopy. The size distribution was estimated from the shadow width of vesicles which were exposed by etching and the vesicle shape was checked by comparing the images obtained by tilting the replicas. The widths of the vesicle diameter distributions were relatively broad, corresponding to standard deviations in the range 60–90 Å, but showing no systematic variation with cholesterol composition. In all cases it was found that 70% of the vesicle diameters lay within 150 Å of the modal value. The apparent vesicle diameters remained constant for cholesterol compositions up to 20 moles/100 moles (modal diameter=330 ± 20 Å, mean diameter = 350 ± 3 Å), but there was a sharp net increase in diameter at 30 moles cholesterol/100 moles reaching a model diameter of 430 ± 20 Å (mean diameter = 430 ± 3 Å) at 50 moles cholesterol/100 moles. Using the tilted microscope stage it was found that all vesicles were spherical at all cholesterol compositions studied, including those above 30 moles cholesterol/100 moles. The molecular mechanism by which cholesterol controls the vesicle size is discussed in terms of the asymmetric distribution of cholesterol across the vesicle bilayer.     

Fine structure of the chromatoid body during spermatogenesis in the water-strider,Gerris remigis (SAY)

Summary During spermatogenesis in Gerris remigis, chromatoid bodies appear in the spermatocytes and persist to the-mid-spermatid stage. These structures consist of numerous, parallel tubules, which measure approximately 500 Å in diameter. The tubules are arranged in hexagonal array, and contain dense granules that resemble ribosomes. The chromatoid body may be secretory in function, or may be involved in intracellular transport.The technical assistance of Mr. Roy R. Keppie and Mrs. Mona Brandreth is gratefully acknowledged.     

Tubular networks in the terminal endings of the visual receptor cells in the human,the monkey,the cat and the dog

Summary A tubular network was found in the terminal endings of the visual receptor cells in the human, the monkey (Macaca mulatta), the cat and the dog. These tubules are arranged in close groups in the vicinity of the synaptic lamellae and the invaginated dendrites. According to the form, diameter, density of the tubules and to the consistence of the network formed by them one can distinguish at these places an initial type (type I), a transitory (type II) and a vesicular one (type III). In the the type III branching, bizarre forms are frequent. The diameter of all the tubules reaches 500–600 Å, their density and walls being the same as in the synaptic vesicles.Similar networks also occur in the axons of the visual receptor cells of the monkey.

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Zusammenfassung In den Endigungen der Photorezeptorzellen von Mensch, Affe (Macaca mulatta), Katze und Hund kommen aus Tubuli bestehende Komplexe vor. Organellenartig in geschlossenen Gruppen angeordnet, liegen sie in Nähe der synaptischen Lamellen und der invaginierten Dendriten. An diesen Stellen kann man nach Form, Durchmesser, Dichte und Konsistenz der von den Tubuli gebildeten Komplexe drei Typen unterscheiden: 1. einen initialen (Typus I), 2. einen Übergangstypus (Typus II) und 3. einen vesiculären Typus (Typus III). In letzterem kommen häufig verzweigte, bizarre Formen vor. Der Durchmesser sämtlicher Tubuli erreicht 500–600 Å. Ihre Dichte und ihre Wand gleicht denen der synaptischen Vesikel.Ähnliche Komplexe fanden wir auch in den Axonen der Photorezeptorzellen vom Affen.

     

Filaments and rod-shaped tubulated bodies in the endothelia of anterior cerebral arteries in young rats

Summary Endothelia of the anterior cerebral arteries in rats aged 1 to 3 days were studied. Thin (about 50–90 Å) and thick (about 100–110 Å) filaments are present in the endothelia. Numerous spherical- or rod-shaped bodies, measuring approximately 0.07 to 0.3 m in diameter and up to 0.6 m in length occur in the endothelial cells. These bodies contain a tubular structure. The diameter of the individual tubules is about 200 Å. The present observations suggest that spherical- or rod-shaped inclusions are first synthesized in the rough endoplasmic reticulum and thereafter these materials are transported into the Golgi complex for maturation. A small number of the inclusions, however, may originate directly from the rough endoplasmic reticulum and not pass through the Golgi apparatus.A part of this study was demonstrated at the 70th Versammlung der Anatomischen Gesellschaft in Düsseldorf, April, 1–5, 1975The author thanks Mr. Tatsuro Fukushima for preparation of photographs     

Fine structure of the autonomic nerves of the rabbit myometrium

Summary The fine structure of the preterminal nerve fibers of the rabbit myometrial smooth muscle was studied using potassium permanganate fixation or glutaraldehyde fixation with postosmification. The preterminal fibers were mostly formed by 2–10 axons enveloped by Schwann cells. Two kinds of axons and axon terminals were found. (1) Adrenergic axons, which contained many small, granular vesicles (diameter 300–600 Å) and large granular vesicles (diameter 700–1200 Å) which represented ca. 2% of the total count of the vesicles. (2) Nonadrenergic axons, which contained small agranular vesicles (diameter 300–600 Å) and large granular vesicles (diameter 700–1200 Å). Both types of axons formed preterminal varicosities along their course. The real terminal varicosities, representing the anatomical end of the axons, were usually larger than the preterminal ones and showed close contact to the plasma membranes of the smooth muscle cells. Both adrenergic and nonadrenergic terminals were found close to the smooth muscle cells, but a gap of at least 2000 Å was always present between the two cell membranes. The axons and preterminal varicosities of both types of nerves were in intimate contact with each other within the preterminal nerve fiber. Axo-axonal interactions between the two types of axons are possible in the rabbit myometrium. The relative proportion of the nonadrenergic axons from the total was about one fourth.     

Electron-microscope studies of Drosophila salivary-gland chromosomes

Summary The submicroscopic structure of the chromosomes of the larval salivary gland cells inDrosophila melanogaster has been studied by means of electron microscopy of thin sections.The three fixatives used were buffered 1% osmium tetroxide, unbuffered Zenker's solution, and buffered formaldehyde in concentrations of 0·1% and 1·0%. It was found that formalin preserves the fine structure of the chromosomes better than the other fixatives.Nucleoprotein is present in the chromosome in the form of granules 200 Å to 300 Å in diameter. The granules are connected together by strands of protein approximately 100 Å in diameter. The length of the strands between successive granules in the banded areas is 100 Å to 300 Å and in the interband regions it is 700 Å to 900 Å.Heterochromatin differs from euchromatin in the absence or reduction in the amount of strand material.The nucleolus is composed of an aggregate of granules 300 Å to 600 Å in diameter contained in an amorphous matrix. Within the nucleolus are a series of canals containing material similar in appearance to that of the euchromatic band material.Submicroscopic granules are also present in the karyoplasm and in the cytoplasm surrounding the nuclear membrane. The cytoplasmic granules are more densely distributed near the nuclear membrane.A model for chromosome structure is proposed.The Applied Fisheries Laboratory is operated by the University of Washington under Contract No. AT(45-1)540 with the United States Atomic Energy Commission.     

Fine structure of smooth muscle and neuromuscular junctions in the foot of Helix aspersa

Summary The smooth muscle cells in the foot of Helix aspersa are arranged in bundles which interweave to form a complex mesh. In the peripheral cytoplasm of the muscle cells there is a system of interconnected obliquely and longitudinally orientated tubules. The full extent of this system has not been determined; its possible function in relation to Ca⁺⁺ storage and excitation-contraction coupling is discussed. Longitudinal tubules are present among the myofilaments and in association with mitochondria. Distributed throughout the myofilaments are elliptically shaped dense bodies, the fine structure of which resembles an accumulation of thin filaments. Located on the plasma membrane of the muscle cells are dense areas; the fine structure and relationships of these cellular elements resemble desmosomes. They may serve as attachment points for thin, cytoplasmic filaments (not necessarily myofilaments). The muscle cells are innervated by axons which diverge from a coarse, neural plexus (the sole plexus). The axons initially come into close contact with the muscle cells and then pass over their surfaces for up to 35 before being gradually enveloped by flange-like protrusions of the muscle cells. These axons contain either, (i) agranular vesicles (600 Å in diameter), (ii) agranular and very dense granular vesicles (1000 Å in diameter) or (iii) agranular and less dense, granular vesicles (1000 Å in diameter). The possible role of these inclusions as sites of excitatory and inhibitory transmitters is discussed.I wish to thank Professor G. Burnstock for making laboratory facilities available. This work has been supported by the Australian Research Grants Committee.     

Fine structure of smooth muscle and neuromuscular junctions in the optic tentacles of Helix aspersa and Limax flavus

Summary The smooth muscle cells studied contain a central core of thick and thin myofilaments surrounded by a peripheral layer of myofilament-free cytoplasm. Numerous vesicles, tubules, microfilaments, mitochondria and fine granules are present in the peripheral cytoplasm. Glycogen particles are distributed in large or small groups in both the peripheral cytoplasm and among the myofilaments. In contracted muscle cells the peripheral cytoplasm bulges out at regular intervals into the intercellular connective tissue. Numerous close contacts between single, usually naked, axons and these cytoplasmic protrusions occur. The axons at these contacts contain numerous small (500 Å in diameter) and large vesicles (800–1000 Å in diameter). Sometimes a number of axons simultaneously form close contacts with a muscle cell. These close contacts are considered to be the sites at which transmitter is released and acts on the muscle cell membrane.I wish to thank Professor G. Burnstock for making laboratory facilities available. This work has been supported by the Australian Research Grants Committee.     

A stereologic electron microscope study of “tubular myelin figures” in alveolar fluids of rat lungs

Summary The three-dimensional structure of a composite material found in alveolar exudate of oxygen poisoned lungs but also present in normal lungs is stereologically analysed. It is composed of tubules of 450 Å diameter which are tightly packed in a quadratic lattice. The wall of the tub vile is formed by four-winged osmiophilic filaments which are located in the corners of the quadratic lattice; their interior is made up of a hydrophilic substance which contains either a tubule or a filament of moderate electron density. The osmiophilic substance of the walls is continuous with associated myelin figures which can be resolved into lamellae with a periodicity of 42 Å and can thus be considered to be water crystals of phospholipids. The nature of the content of the tubules, which presumably exerts the formative force on the phospholipid lamellae to form tubules, remains undetermined.Dedicated to Prof. W. Bargmann in honor of his 60th birthday.The research reported here has been sponsored by the Schweizerischer Nationalfonds zur Förderung der wissenschaftlichen Forschung (Nr. 2569); by the Stiftung für wissenschaftliche Forschung an der Universität Zürich; by the National Institutes of Health, USPHS, through grant RF-57; and the 6570th Aerospace Medical Research Laboratories under contract AF 61(052)-784 through the European Office of Aerospace Research (OAR), United States Air Force.     

The intranuclear mitosis of the ciliates Paracineta limbata and Ichthyophtirius multifiliis

Electron microscope studies on the premetaphase stages of micronuclear divisions of Paracineta limbata and Ichthyophtirius multifiliis showed that spindle material also exists during interphase. In the case of I. multifiliis scattered microtubule fragments persist in the nuclear space; in P. limbata the micronuclei contain a small paracrystalloid which is suggested to be microtubular protein. Wide microtubules, varying in diameter from 300 to 400 Å develop during intranuclear prophase near the nuclear envelope in both cases. There are good reasons to assume that they function as a kind of stem body during the enlargement of the surface area of the nuclear envelope. Later micronuclear prophase stages of both species show a some-what different development. In I. multifiliis, there are scattered groups of short microtubular segments, partly in parallel array, whereas in P. limbata the wide tubules are transformed into normal microtubules of 180–200 Å diameter. The nuclei of both species are similar at late prophase and prometaphase stages. Bundles of interpolar microtubules run between the chromosomes, and single microtubules, presumably induced by the chromosomes, cross them at different angles. The chromosome-induced microtubules appear a short time after the interpolars. At prometaphase stage all microtubules show a highly parallel arrangement and therefore it is suggested that chromosomal tubules reach their final polar orientation by the action of cross-bridges.     

Ultrastructure of the median eminence of the rat

Summary The ependymal cells bordering the median eminence to the third ventricle are characterised by many microvillus-like projections and bulbous cell processes of the luminal plasma membrane. The latter contain many vesicles 500–1,000 Å in diameter. Cilia with 9+2 fibrillar pattern are seen occasionally. Adhesive devices in the from of zonula adhaerens and zonula occludens are found in the apical part of the intercellular junction. Unmyelinated nerve fibres with a mean diameter of 1 and containing many electron dense granules of 830–1,330 Å are often seen between the ependymal cells.Two types of glial cells are found in the median eminence. One is characterised by a nucleus with dense blods of chromatin and dense cytoplasm, and it is associated chiefly with the nerve fibres in the region of the hypothalamo-hypophysial tract. The other type of glial cell is characterised by fine, uniformly distributed chromatin in the nucleus and a relatively pale cytoplasm and branched processes which terminate perivascularly in the base of the median eminence.Myelinated nerve fibres are seen only in the region of the hypothalamo-hypophysial tract. Only a part of them contain electron dense granules 1,330–2,330 Å in diameter.Three types of unmyelinated nerve fibres can be distinguished in the median eminence according to the size of the electron dense granules they contain: 1. Nerve fibres containing granules 1,330–2,330 Å in diameter. They are seen primarily in the hypothalamo-hypophysial tract, but also in the zona externa; 2. those containing granules with a mean diameter of 1,330 Å; and 3. those containing granules with a mean diameter of 1,000 Å. The last two types are both encountered in the hypothalamo-hypophysial tract, the zona externa and the perivascular region of the base of the median eminence. Under high magnification, the membrane of the granules show evidence of a trilaminar structure and the content of the granules with a low electron density appeares to consist of small microvesicles or globular components. Besides granules, these nerve fibres contain vesicles mostly 420 Å in diameter whose relative number increases towards the perivascular nerve endings. 53 per cent of the inclusions in the hypothalamo-hypophysial tract are granules and 47 per cent vesicles, while the corresponding percentages for the zona externa are 40 and 60 and for the perivascular nerve endings 20 and 80.The mean width of the pericapillary space is 1 , but it varies greatly. It containes many collagen fibrils and fibroblasts. The capillary endothelium is frequently fenestrated and contains many vesicles of various sizes.Two types of granules-containing cells are found in the pars tuberalis depending on the size of the electron dense granules: 1. cells containing granules with a mean diameter of 1,330 Å: and 2. cells containing granules with a mean diameter of 2,000 Å. In addition, there are occasional follicular cavities filled with amorphous material, microvilli and cilia of 9+2 fibrillar pattern.Aided by a grant from the Sigrid Jusélius Stifteise.     

The fine structure of differentiating interstitial cells in Hydra

Summary Interstitial cells of hydra are small undifferentiated cells containing an abundance of free ribosomes and few other cytoplasmic organelles. They are capable of differentiating into epitheliomuscular, digestive, glandular, nerve cells, and cnidoblasts. Developing epitheliomuscular and digestive cells acquire bundles of filaments, 50 Å in diameter, which later are incorporated into the muscular processes. Early gland cells develop an elaborate rough-surfaced endoplasmic reticulum and one or more Golgi apparatus. Secretory granules originate in the Golgi region eventually filling the apex of the cell. Neurons are recognized first by the presence of an elaborate Golgi apparatus, absence of a well-developed endoplasmic reticulum, and later the appearance of cytoplasmic processes. The most striking feature of nematocyst formation by cnidoblasts is the presence of a complex distribution system between protein synthesizing rough-surfaced endoplasmic reticulum and the nematocyst. This system consists of connections between cisternae of the endoplasmic reticulum with smooth Golgi vesicles which in turn are connected to minute tubules, 200 Å in diameter. The tubules extend from the Golgi region around the nematocyst finally entering the limiting membrane of the nematocyst. It is suggested that the interstitial cells of hydra represent a model system for the investigation of many aspects of cell differentiation.This work was supported by grants from the National Cancer Institute (TlCA-5055) and from the National Institute of Arthritis and Metabolic Diseases (AM-03688), National Institutes of Health, Department of Health, Education and Welfare.The author is indebted to Dr. Russell J. Barrnett for his guidance and interest throughout this investigation.     

Ultrastructure of the radula protractor of Busycon canaliculatum

Summary The distribution of the sarcoplasmic reticulum and sarcolemmic tubules in the radula protractor muscle of the whelk, Busycon canaliculatum, has been investigated. The sarcoplasmic reticulum consists of an interconnected system of cisternae and tubular channels. The cisternae are closely associated with the sarcolemma. The tubular channels project from the cisternae into the interior of the cell and run parallel to the long axis of the myofilaments. Parallel tubular channels are interconnected with one another by short branches. This finding of an elaborate sarcoplasmic reticulum supports previous physiological work on this smooth muscle which indicated the presence of an intracellular compartmentalization of calcium ions. There is also an extensive system of tubular invaginations of the sarcolemma which we have termed sarcolemmic tubules. These tubules are 600 Å in diameter and about 0.5 microns in length. There is a substructure associated with the leaflet of the tubular membrane bordering the extracellular space. The sarcolemmic tubules penetrate only half a micron from the surface of the cell and interdigitate with the sarcoplasmic reticulum associated with the sarcolemma. Calculations have shown that the surface area of this smooth muscle cell is more than doubled by the presence of sarcolemmic tubules.     

Connections between mitochondria and endoplasmic reticulum in rat liver and onion stem

Summary Smooth-surfaced elements of endoplasmic reticulum contact and are attached to the outer membranes of mitochondria in rat liver and onion stem. Some connections appear as short, 150–300 Å diameter tubules that bridge the space between the conjoining elements. In liver, the smooth-surfaced endoplasmic reticulum cisternae connected to the outer mitochondrial membrane are shown to be continuous with rough-surfaced endoplasmic reticulum. Here, the smooth-surfaced endoplasmic reticulum is identified in negatively stained preparations of isolated cell fractions and in thin sections of tissues by the presence of lipoprotein particles characteristic of this cell component. In onion, the identification of endoplasmic reticulum is based on continuity with rough-surfaced endoplasmic reticulum.     

Relationship between relative dry mass and average band width in regions of polytene chromosomes of Drosophila

Whole-mounted polytene chromosomes from Drosophila melanogaster were prepared for high-voltage electron microscopy. Relative dry mass of chromosome regions was estimated by densitometry of electron microscopic negatives. Comparison of dry mass of regions of the male X chromosome with that of regions of associated autosomes established that dry mass values are proportional to DNA content. Relative dry mass values of regions of polytene chromosomes from salivary glands, fat body, and malpighian tubules were correlated with the average diameter of bands in these regions: as mass doubled, band width increased by a factor of approximately 2. To provide a standard for estimating absolute levels of polyteny, band widths were measured for chromosomes representing one major polytene class, 256n. These chromosomes were observed to have an average band width of 0.9 m — These observations provide limits to models of chromatin organization in bands. For each chromatid, this area can accommodate up to five chromatin fibers of 250 Å diameter. This value may represent the extent of folding of a chromatin fiber in an average band. Alternatively, a chromatin fiber of higher-order structure could have a maximum diameter of 560 Å in an average band.