A specific chromosome element,the telomere of Drosophila polytene chromosomes

The submicroscopic organization of terminal chromosome regions of Drosophila hydei polytene chromosomes is described. A compact region composed of tightly packed fibrils of 100 to 125 Å diameter embedded in an amorphous material is located at each of the chromosome ends of the 5 long chromosome arms. From this compact region, sometimes containing cavities, fibrils extend onto the nearest normal band region. The diameter of the extending fibrils is 100–125 Å, 200–250 Å or 400 Å. Pronase digestion of fixed and squashed chromosomes reduced the electron density of the amorphous matrix in the compact regions but failed to affect the diameter of the fibrils. The extending fibrils, however, showed a decrease in diameter after pronase digestion. The most frequently observed diameter values were 100–125 Å. — The volume of the terminal structures, including the compact region as well as the extending fibrils, is characteristically different for the various elements of the karyotype. Chromosome 2 displays the largest terminal structure, whereas chromosome 4 only occasionally shows the presence of compact regions. — End to end association of the long chromosome arms involves the fusion of the compact terminal structures. The non-random distribution of end to end association seems to be correlated with the volume of the terminal structures. Chromosome 2 which contains the largest compact terminal region is more frequently involved in end to end associations than any other chromosome arm. — The terminal regions show replication of DNA. They belong to the group of regions which display a discontinuous labeling pattern along the chromosomes, representing a late phase of the replication cycle. — The unique structural organization of the terminal chromosome regions, which is never observed at any other location of the genome supports the idea that they are morphological manifestations of the postulated telomeres.     

Freeze fracture studies on the annelid septate junction

Summary Freeze-fractured preparations of septate junctions between epidermal cells of annelids (Lumbricus terrestris and Tubifex spec.) have been investigated. In Lumbricus the protoplasmic face (PF) of the plasma membrane is characterized by variously arranged rows of particles. Apically the rows take an undulating course and often are separated by wide distances. In the basal part of the junction the rows run closely together and more or less in parallel. The diameter of the particles measures 80–120 Å, the distance between two particles (centre to centre) is 150–250 Å. Additionally striking rows of large particles (long diameter 150–200 Å). Are to be observed mainly near the basal part of the junction. In Tubifex both faces of the plasma membrane could be studied in detail. The protoplasmic face (PF) contains rows of distinct individual particles (mean diameter 100–150 Å, centre to centre distance approx. 250 Å) whereas the particles of the extracellular face (EF, mean diameter 200–250 Å) usually form continuous strands in which the individual particles seem to fuse. The density of arrangement of the strands varies considerably. Additionally ladder-shaped membrane structures have been observed in plasma membranes of this species.     

Microtubular structures in group D streptococcal L-forms

Summary Microtubular structures, apparently continuous with the plasmalemma, have been observed in thin sections of two strains of group D streptococcal L-forms. The tubules had an external diameter of about 250 Å and a hollow core 100–150 Å in diameter. The tubules were found protruding either into or out of the L-form cells and were only found in cultures growing in the presence of penicillin.     

The electron-microscopic structure of nucleoprotein fibrils from metaphase chromosomes treated with salt

The diameter of nucleoprotein fibres of metaphase chromosomes is sensitive to salt concentrations. Treatment of human lymphocyte cells in metaphase with a hypotonic medium and spreading them on a water surface causes swelling of the chromosome fibres from 150–180 Å to 230–250 Å. Treatment of the chromosomes with 0.15–0.45 M NaCl, a concentration at which histones are not yet removed from the nucleoprotein complexes, apparently does not affect the chromosome structure. Treatment with NaCl solutions between 0.6 M and 2.0 M NaCl leads to a progressive extraction of the chromosomal proteins and decreases the diameter of the chromosome fibres to 80–100 Å and less.Dedicated to Prof. Dr. A. Butenandt on the occasion of his 70th birthday.     

Electron microscopy of the tracheal ciliated mucosa in rat

Summary The structure of the tracheal epithelial cells from rat has been studied by electron microscopy on approximately 200 Å thick sections with a resolution of better than 30 Å.The epithelium is found to be of a simple columnar type composed of ciliated cells, mucus producing (goblet) cells, basal cells and a fourth kind of cell, here called brush cell. A great number of non-ciliated cells has also been encountered. It has been proved that these represent goblet cells in different stages of intracellular synthesis of mucous granules. The ciliated cells have approximately 8–9 cilia per square micron and there are about 270 cilia on each cell, the calculated surface area being 33 square microns. They are covered by a 70 Å thick membrane. The ciliary filaments are arranged in a pattern of 2 separate ones in the center and a ring of 9 peripheral ones, each divided into 2 subfilaments by a wall with same thickness as the filamentous wall itself, this being 60 Å. The peripheral filaments are continuous with the basal corpuscles. The structure of the corpuscles as compared with earlier findings is discussed. A number of 0.05 micron thick and 1 micron long filiform projections emerge from the cell surface. No cuticle is present.The cell membrane facing adjacent cells is 90 Å and separated from their cell membrane by a 105 Å wide space, this space, being expanded towards a level corresponding to the proximal parts of the cell. A structure that represents terminal bar has been encountered. The cytoplasm is loose and composed of 160 Å thick granules. Spaces enclosed by 50 Å thick membranes with attached 160 Å thick granules (-cytomembranes) are rare. The Golgi zone is analyzed and its regular composition of -cytomembranes, granules and vacuoles is confirmed. The mitochondria with a mean width of 0.23 micron differ to their inner structure from the common type in that the triple layered membranes are highly interconnected. Large opaque granules are encountered in the cytoplasm. Ring-shaped, 850 Å wide, structures are present in the nuclear membrane. The goblet cells are not as abundant as the ciliated cells, the ratio being 14. Small filiform projections covered by a 95 Å thick membrane protrude from the cell surface. This membrane is continuous with the cell membrane, the latter with the same dimensions as in the ciliated cells. Terminal bars are present. The cytoplasm is very opaque due to a dense packing of the 165 Å opaque granules, many in clusters of 4–6. The -cytomembranes have the same dimensions as mentioned above for those present in the ciliated cells. The Golgi zone is of regular composition. There is a suggestion that the Golgi vacuoles and the -cytomembranes are involved in the formation of mucus. In the stage of cellular activity with but few mucous granules, there is a great number of large opaque granules, the size varying from 0.4–1 micron. The mitochondria with a mean width of 0.23 micron have an outer triple layered membrane with a total thickness of 180 Å. The central less opaque layer is 70 Å and the opaque layer on either side is 55 Å. The inner membranes are arranged parallel to each other and have a triple layered composition where the central less opaque layer is 65 Å and the opaque layers each 60 Å. The brush cells belong to the non-ciliated cells. They are encountered singly, surrounded by goblet cells. The surface structures are shaped like brushes or clumsy protrusions which emerge from the distal end of the cell, and are covered by a 95 Å thick membrane. There have been no suggestions of the brushes being cilia in a stage of growth, nor is it probable that they represent stereocilia. They most nearly resemble the intestinal brush border extensions and thus might serve as a resorbing structure.The cytoplasm of the brush cells appears of medium opacity between the ciliated cells and goblet cells and is composed of 155 Å opaque granules. The -cytomembranes are very rare. The Golgi zone is diminutive though of regular composition. The mitochondria are abundant and small with a mean width of 0.14 micron. The outer and inner membranes are triple layered with approximately the same dimensions as reported for the mitochondria of the ciliated and goblet cells. The inner membranes are very few, often only one or two are present. Some of the large opaque granules have inside a very regular arrangement of small 60 Å thick opaque granules arranged in a crystallinic pattern. In the cytoplasm 0.5–1 micron long bundles of 30–40 Å wide fibrils are encountered. The nucleolus shows a characteristic structure of concentrically arranged thin membranes. The basal cells are believed to represent lymphocytes or white blood cells. They sometimes rest on the basement membrane, sometimes are encountered in the distal part of the intercellular spaces. They are bordered by a 110 Å thick cell membrane and have a rather opaque cytoplasm characterized by 160 Å thick opaque granules. A very small Golgi zone is present. The mitochondria, the mean width being 0.14 micron, have triple layered outer and inner membranes, where the less opaque central layer is 65–70 Å and the opaque layers 45–50 Å each. The basement membrane has a thickness of 600 Å. No inner structure has been resolved. The basement membrane is separated from adjacent parts of the ciliated, goblet, brush, and basal cells by a 250 Å wide less opaque space. Below the basement membrane is the lamina propria of the trachea, which is composed of collagen and elastin fibers together with fibroblasts, white blood cells and lymphocytes. The relationship between different types of tracheal epithelial cells in rat has been analyzed. There has been found no indication of a transformation of any type of cells observed into a different type of cell. The development of basal cells via supporting cells or intermediate cells to goblet cells or ciliated cells has not been noticed. On the contrary, all cells that in light microscopy could have been considered to be supporting or intermediate cells, we have been able to recognize as brush cells or as goblet cells to a varying degree filled with mucous granules. If the cells did not seem to reach the cell surface it has been found to be due to a diagonal direction of the sectioning. In this connection it should be emphasized that this relationship is valid only in rat where it is known that the epithelium is of a simple columnar type as distinct from the conditions in man, that epithelium being of a pseudostratified columnar type.This paper is based on a report given at the meeting of Deutsche Gesellschaft für Elektronenmikroskopie in Münster, March 28–31, 1955 and at the Scandinavian Electron Microscope Society Meeting in Stockholm, May 13, 1955.     

Entstehung und Ultrastruktur der Biondi-Körper in den Plexus chorioidei des Menschen (Biopsiematerial)

Zusammenfassung Bei 50–60jährigen Menschen enthält das Plexusepithel Einschlüsse (Biondi-Körper), die als Zeichen einer Alterung gelten. Elektronenmikroskopisch bestehen sie aus einer fibrillären Komponente und verschiedenartigen tropfigen (Lipid) oder granulären (u.a. Lipofuszin) Strukturen. Nach Frühstadien solcher Komplexe wurde im Seitenventrikel-plexus (Biopsiematerial) 20–30 Jahre alter Personen gefahndet. In dieser Altersgruppe haben wir nur Lipidtropfen, Lysosomen, stark osmiophile Partikel und Konglomerate dieser Einschlüsse beobachtet; die für ältere Menschen charakteristischen Filamentbündel (Fasern) ließen sich bisher nicht nachweisen. Das Plexusepithel einer 54jährigen Frau war reich an verschiedenen Entwicklungsstadien fibrillärer Biondi-Strukturen. Aus 80–100 Å starken Filamenten bestehende Bündel können frei im Grundplasma der Plexuszelle liegen; ähnliche Filamente trifft man auch innerhalb von großen lysosomenartigen Körpern an. Solchen Fasern bzw. Lysosomenkomplexen lagern sich Lipidtropfen, kleinere elektronendichte Cytosomen und Lipofuszingranula an. Einzelne Filamente sind quergestreift, mit einer Periode von etwa 40–50 Å und globulären Untereinheiten (Durchmesser etwa 25 Å). Nach Färbung mit Kongorot sind die Biondi-Fasern stark doppelbrechend; ein Teil dieses Materials leuchtet grün, andere Faserstrukturen zeigen einen gelben Farbton. Diese Merkmale entsprechen den Strukturcharakteristika von Amyloidfasern. Auf den Amyloidcharakter der Biondi-Einschlüsse haben bereits Divry (1955) und Schwartz (1970) hingewiesen; immunbiologische Aspekte ihrer Entstehung sind zu diskutieren. Einzelne Biondi-Einschlüsse können auch in den Liquor cerebrospinalis austreten. Gebilde, die an die nichtfibrilläre Komponente der Biondi-Körper erinnern, wurden auch im Endothel und in den Pericyten der Plexusgefäße dargestellt.

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Formation and ultrastructure of Biondi bodies in the human choroid plexus (biopsy material)

Summary The choroid epithelium of 50–60-year old persons contains inclusions known as Biondi bodies. These inclusions have been presumed to be signs of aging. Electron microscopic studies have shown that mature Biondi bodies contain filaments, various droplets, and dense granular structures. The vesicular inclusions are identified as lipid droplets; lipofuscin pigment may be associated with lysosomes. In the present studies, in order to analyse the early stages of formation of Biondi bodies, we investigated biopsy material from 20–30-year old persons. In this age group, we observed lipid bodies, lysosomes, osmiophilic particles, and complexes of these structures, but not the filament bundles that were characteristically present in older persons. In a 54-year-old female, the choroid epithelium contained different forms and stages of Biondi fibers. Some groups of filaments of 80–100 Å mean diameter were seen in cytoplasm; others were located in large lysosome-like bodies. Both types of inclusions were associated with lipid droplets, small electron-dense cytosomes and lipofuscin pigment granules. Some filaments showed cross-striation with about 40–50 Å periodicity and globular subunits measuring about 25 Å in diameter. In sections stained with Congo red, the Biondi fibers were strongly birefringent and displayed green or yellow colors. These data are in agreement with the morphological and physical characteristics of human amyloid fibrils and filaments. It has been suggested by Divry (1955) and Schwartz (1970) that Biondi bodies contain amyloid deposits. Immunobiological aspects should therefore be considered in relation to the formation of Biondi bodies. Evidence has been found in our material that single Biondi bodies may be extruded into the cerebrospinal fluid. Further, structures resembling the vesicular and granular components of Biondi bodies were observed in the endothelium and pericytes of the choroid vessels.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Vinblastine-induced precipitation of phloem proteinsin vitro

Summary Purified proteins from sieve tubes ofCucurbita maxima were precipitated with vinblastine and the precipitates were analyzed with the electron microscope. Filaments (35–40 Å in diameter) and tubular structures (160 Å in width) were observed in negatively stained preparations. The predominant structures of the negatively stained and of the thin sectioned material, however, were membrane-like sheets (100–120 Å in width) which showed the typical unit membrane aspect.Dedicated to Professor Dr. W.Schumacher on his 70th birthday.The investigations were supported by the Deutsche Forschungsgemeinschaft.     

The ultrastructure of organelles appearing in spermatids and nutritive cells of Cipangopaludina malleata

Summary The ultrastructure of organelles appearing in the early typical and atypical spermatids, and the nutritive cells of Cipangopaludina malleata has been examined by a Siemens' electron microscope Elmiskop I.Mitochondria appearing in the early typical spermatid have doughnut-like profiles in which the internal ridges appear as triple-layered membranes arranged radially and extending into the interior of the organelle without reaching the other side. Each membrane 40–60 Å in width, separated by a clear interspace 60–90 Å wide, is characterized by a porous structure 20–30 Å in diameter which suggests a filtration apparatus for enzymes.Walls of the flattened saccules consisting the Golgi apparatus are calculated 35–60 Å thick, in which an electron-lucent, porous structure about 30 Å wide has been revealed.The smooth-surfaced endoplasmic reticulum is bordered by a triple-layered membrane consisting of two opaque layers with a less opaque interspace 20–30 Å wide. The outer membrane ca. 15 Å wide presents a more linear appearance than the dotted arrangement of the inner membrane 20–25 Å thick.The plasma membrane is composed of a triple-layered structure where two dense lines 15 Å wide are separated by a layer 20–30 Å thick of less density.The electron micrographs for the present studies were taken with the Siemens electron microscope, model Elmiskop I, at the Anatomical Institute of Kiel University, Germany. The one of the authors, G. Yasuzumi is deeply grateful to Prof. Dr. W. Bargmann and Dr. A. Knoop for the privilege of using this instrument and other equipments in the Laboratory.     

Über bandartige Strukturen in den Chromozentren vonLupinus polyphyllus

In the nuclei ofLupinus polyphyllus strongly marked chromocentres occur. In electron micrographs of anther cell nuclei these chromocentres appear either as a homogeneous network or subdivided into two distinct regions, a network-like (NR) and a banded one (GR). In both a 100 Å fiber is the basic unit. The GR is composed of 4 to 6 parallely arranged electron dense bands (240–280 Å wide) and interbands (260–300 Å wide) of low electron density. They appear to correspond to a cylindrical structure with disc-like components and connective sections. These observations are discussed in relation to chromosome structure during interphase and mitosis.

Herrn Prof. Dr. L.Geitler zur Vollendung seines 80. Lebensjahres gewidmet.     

The ultrastructure of plasmodesmata in the filamentous green alga,Bulbochaete hiloensis (Nordst.) tiffany

Summary The ultrastructure of the plasmodesmata found in the green alga Bulbochaete hiloensis has been examined by electron microscopy of ultra-thin sections. Unlike most other plasmodesmata that have been described recently, there are no internal components such as a desmotubule or a derivative of the endoplasmic reticulum. Each plasmodesma consists of a cylindrical connection between the plasma membranes of adjacent cells. The cylinder is constricted at each end to orifices which may be less than 100 Å in diameter. Within the cylinder the cytoplasmic face of the plasma membrane is lined with material probably consisting of helically arranged particles. The lumen here is 400–450 Å in diameter.The observations are discussed in relation to possible functions in intercellular transport.     

On different types of nerve endings in the frog median eminence after fixation with permanganate and glutaraldehyde-osmium

Summary In the frog median eminence, fixed with glutaraldehyde and osmium tetroxide, four types of nerve endings can be generally distinguished. These endings are in contact with the pericapillary spaces of primary portal vessels and can be identified by the internal structure and the size of their granules and vesicles. Type 1 contains large granules (1500–2400 Å in diameter) and small clear vesicles (300–500 Å in diameter), type 2 intermediate granules (about 1100–1700 Å in diameter) and small clear vesicles, type 3 small granules (about 600–1000 Å in diameter) and small clear vesicles, type 4 only numerous small clear vesicles. The mixed types containing the large, intermediate and small dense granules in the same ending are infrequently found.After KMnO₄ or LiMnO₄ fixation the granules and vesicles mentioned above are observed as follows. The large granules in the type 1 nerve ending appear mostly pale or less-dense. The intermediate granules in the type 2 also appear mostly pale or less-dense, but some frequently show granules of high density. The small granules in the type 3 consistently contain the dense substance and these endings can be subdivided into two different types according to the populations of different sizes of dense granules [type 3a (900–1000 Å) and type 3b (500–800 Å)]. Dense-cored and cleared-synaptic vesicles are frequently present with together in the type 3 endings. The small vesicles (300–400 Å), in the type 4, appear generally pale (type 4a), but some nerve endings contain small dense cored-vesicles (type 4b).The author wishes to thank Prof. H. Fujita for his advice and criticism.     

Isolation and characterization of nuclear ribonucleoprotein complexes from Drosophila melanogaster

The isolation of total nuclear ribonucleoprotein particles fromDrosophila melanogaster embryos, using a pH 8.0, 01 M NaCl extraction of purified nuclei, is described. When the extract is fractionated on isokinetic sucrose gradients, at least six major classes of nuclear ribonucleoprotein complexes, differing in RNA and protein content as well as sedimentation behavior, are observed. The two largest complexes are preribosomal complexes. The remaining four major classes of RNPs sediment at roughly 6S, 8S, 12S and 30S. A minor class at 17S is also observed. The 30S fraction is 200–250 Å in width and appears to be analogous to the mammalian monoparticle. It is composed primarily of polypeptides at about 36 000 and 37 000 daltons, along with 1–2 kilobase RNA fragments. The 6S, 8S and 12S complexes contain a few discrete small nuclear RNAs from 80–600 bases in length, along with a small number of polypeptides, about 50 000, 52 000, 56 000 and 75 000 daltons. These novel complexes are of the order of a 100 Å in width (60–120 Å range).     

Electron microscopic observations on synapse-like contacts between pituicytes and different types of nerve fibers in the anuran pars nervosa

Summary Pituicytes of Rana pipiens could be classified into two types, pale and dense, according to their relative densities of cytoplasm and the populations of free ribosomes and cell organelles. An intermediate type of pituicyte was also recognized.Lipid droplet such as are typical in the cytoplasm of mammalian pituicytes, are not in the cytoplasm of either types of frog pituicyte. Both types have long cytoplasmic processes which run among the nerve fibers, and some of them end at the pericapillary space.Nerve endings making synapse-like contacts with the cell bodies or the processes of the pituicyte are frequent. According to the structures and sizes of granules and vesicles in the nerve endings, these endings are classified into one of three types: 1) A, which appears to be a peptidergic neuronal ending containing dense granules 1,200–2,000 Å in diameter and small clear vesicles 300–400 Å in diameter; 2) B, which appear to be monoaminergic endings containing cored vesicles 600–1,000 Å in diameter and small clear vesicles 300–500 Å in diameter; 3) C, which appear to be cholinergic endings containing only small clear vesicles. Type C endings are relatively rare. In the synaptic area the axonal membranes appose those of the pituicytes across a gap of about 200 Å and numerous presynaptic vesicles are clustered or accumulated near the presynaptic membranes.The author wish to express his hearty thanks Professor Dr. A. Gorbman, Zoology Department, University of Washington, Seattle, U.S.A. and Professor Dr. H. Fujita for their helpful advices and criticisms. The frog tissues were obtained and fixed in Professor A. Gorbman's laboratory supported by U.S.P.H.S. grant NS 04887.     

A new interpretation of plasmodesmatal ultrastructure

Summary It is shown that simple, unbranched, plasmodesmata between young xylem ray cells of willow have no direct intercellular continuity apart from the plasmalemma which limits the cytoplasm and lines the plasmodesmatal canal. Each plasmodesma is traversed by a 200 Å diameter tubule (the desmotubule) which has a wall with probably 11 subunits arranged around a central cavity through which runs a 40 Å diameter rod. This rod is connected to the inside of the tubule wall, by fine filaments. At the ends of each plasmodesma the plasmalemma and cell wall are closely appressed to the tubule, thus precluding direct continuity between the cytoplasm of adjacent cells. Through the central part of the plasmodesmata the tubule is separated from the plasmalemma by a 90–100 Å wide gap. Cytoplasmic microtubules in the same tissue have a diameter of approximately 250 Å and a wall probably composed of 13 subunits: both desmotubules and cytoplasmic microtubules therefore have a centre-to-centre subunit spacing of about 47 Å. It is suggested that the desmotubules are not microtubules but may be nuclear spindle fibres which become trapped in the wall during cell plate formation. The endoplasmic reticulum, while closely approaching the plasmodesmata, is not continuous across them. It is thought most unlikely that the endoplasmic reticulum traverses plasmodesmata, as the dimensions of the central tubule — found here as well as by other workers — are smaller than those which would be expected to allow a stable molecular configuration in a unit membrane. The plasmalemma, where it lines the plasmodesmatal canal, appears to have particulate subunits in the outer opaque layers and the presence of these subunits may be attributable to the need for stability in membranes arranged about so small a radius.     

The ultrastructure of the blood capillaries in the mouse thyroid gland

Summary In the mouse thyroid gland the endothelium lining the blood capillaries is separated from the epithelial cells by a periendothelial space composed of three layers. Two of these are rather dense and localized close to the epithelium and endothelium, respectively. The third layer, interposed between the two dense layers, has a very low density. The dense layers, having each a thickness of 400–500 Å, show at high magnification in some places a lamellated structure. The middle layer varies in thickness and contains sometimes aggregates of a homogeneous material, circular bodies bordered by a membrane and, in single cases, fibrillar structures.The major part of the endothelial wall is very thin, only 200–600 Å. Within these thin parts discontinuities are observed, the endothelial cytoplasm being replaced by a more or less distinct membrane, about 50 Å thick. The dimension of the discontinuities is about 400 Å. The observations made are discussed.     

The difference between protein structures obtained by x-ray analysis and nuclear magnetic resonance

We have analyzed the pairs of protein structures obtained by X-ray diffraction analysis and nuclear magnetic resonance (X-ray and NMR structures) that display no major differences when superimposed on one another (61 pairs). Analyzing atom-to-atom contacts (contact distances 2–8 Å), it has been found that the NMR structures (compared to the X-ray structures) have more contacts at distances below 3.5 Å and above 5.5 Å. In the case of residue-to-residue contacts, the NMR structures have more contacts at distances below 3 Å and between 4.5 and 6.5 Å. At other distances analyzed, the X-ray structures have more contacts. The difference in the numbers of atom-to-atom and residue-to-residue contacts is greater for buried residues inaccessible to water than for surface residues. Another important difference is related to the number of hydrogen bonds in the main chain: this number is greater in the X-ray structures. The coefficient of correlation between the numbers of hydrogen bonds identified in the structures obtained by both methods is only 32%. If a complete set of NMR models of protein structure is considered, the total number of hydrogen bonds proves to be 1.2 times greater than in the X-ray structures, whereas the correlation coefficient increases to only 65%. We have also demon-strated that -helices in the NMR structures are more distorted (compared to the ideal -helix) than those in the X-ray structures.Translated from Molekulyarnaya Biologiya, Vol. 39, No. 1, 2005, pp. 129–138.Original Russian Text Copyright © 2005 by Melnik, Garbuzynskiy, Lobanov, Galzitskaya.     

Chromosome fibers studied by a spreading technique

Chromosomes and interphase nuclei can be spread on the surface of water in a simplified Langmuir trough. Interphase nuclei of Triturus erythrocytes display fibers with a diameter of about 250–300 Å. Very similar fibers are seen in metaphase chromosomes of cultured human cells. Fibers from grasshopper spermatocyte chromosomes (prophase) are more variable in diameter, and many fibers thinner than 200 Å extend laterally from the chromosome. In the grasshopper spermatocyte, fibers align in parallel to form plates. It is suggested that the 250–300 Å fibers may represent an inactive state of the chromosome material, and that only the thinner fibers are involved in RNA synthesis. The 250–300 Å fibers may result from the folding or coiling of a thinner fiber having the approximate dimensions of the nucleohistone molecule.     

Elektronenmikroskopische Untersuchungen menschlicher Metaphasen-Chromosomen

Zusammenfassung Chromosomen von Mitosen im Metaphasestadium nach Colchicinbehandlung normaler menschlicher Fibroblastenkulturen wurden mit dem Elektronenmikroskop untersucht.Nach Fixierung in Glutaraldehyd und Einbettung in Epon zeigen Schnittpräparate nach Kontrastierung mit Uranylacetat als feinste erkennbare Elemente etwa 30 Å dicke, schraubig gewundene Fibrillen, die dickere, vielfach und unregelmäßig gefaltete Fibrillen von 100–150 Å Durchmesser aufbauen.Isolierte ganze Chromosomen, die zur Präparation mit hypotoner Salzlösung vorbehandelt, in Alkohol-Essigsäure fixiert und luftgetrocknet wurden, lassen stark gewundene dicke Fibrillen von 200–300 Å durchmesser erkennen, die aus schraubig gewundenen 30 Å dicken Fibrillen bestehen. In Schnittpräparaten von ähnlich vorbehandelten Chromosomen finden sich ebenfalls 200–300 Å dicke Fibrillen, die aus 30 Å dicken feineren Fibrillen in lockerer Anordnung aufgebaut sind. Der größere Durchmesser der dicken Fibrillen in hypoton vorbehandelten Präparaten könnte durch Auflockerung der feinen Fibrillen hervorgerufen sein.In allen Präparaten sind die auch lichtmikroskopisch sichtbaren primären Windungen der Chromatiden angedeutet. Die dickeren Fibrillen lassen sonst keine regelmäßige Anordnung erkennen. Längsunterteilungen im Sinne von Halb- oder Viertelchromatiden sind nicht zu sehen. In Totalpräparaten erscheint die Region des Zentromers weniger dicht, und Kinetochoren sind nicht erkennbar.Es wird die Frage diskutiert, ob nur eine kontinuierliche und vielfach gewundene Fibrille oder mehrere miteinander verflochtene Fibrillen und Stränge ein Chromatid aufbauen.

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Metaphase chromosomes of colchizinized normal human fibroblast cultures were investigated with the electron microscope.Sections of glutaradehyde fixed and epon embedded chromosomes show 30 Å thick coiled fibrils building up folded thicker fibrils of 100–150 Å diameter.Isolated total chromosomes pretreated in hypotonic salt solution, fixed in alcohol-acidic acid and air dried, show also 30 Å thick fibrils coiled into thicker fibrils of 200–300 Å diameter. Sections of similarly treated and epon embedded chromosomes show fibrils of similar dimensions but more loosely coiled than in glutaraldehyde fixed sections.Major coils also seen by light microscopy are noticeable in all preparations. No signs of longitudinal subdivisions of the chromatids are detectable. In whole mount preparations the centromere region appears as less dense and kinetochores cannot be seen.The question is discussed whether one single continuous fibril coiled to a thicker fibril which in turn is irregular folded to a strand laid into the major coils builds up a chromatid, or if many thin fibrils join together to thicker fibrils which again form thicker strands which are finally twisted together to a chromatid.

     

The neurohypophysis of the crested newt

Summary In the median eminence of the newt a medial region and two lateral regions are described.In cross section, the medial region appears to be made up of 1) an outer or glandular zone (Zone I) containing aldehyde-thionine-positive and negative nerve fibres and blood capillaries. Nerve fibres appear aligned in palisade array along the capillaries. 2) An inner zone (Zone II) made up of a) a layer of aldehyde-thionine-positive nerve fibres (fibrous layer) belonging to the preoptic hypophyseal tract and b) a layer of ependymal cells lining the infundibular lumen and reaching the blood vessels with their long processes.The lateral regions display a less pronounced stratification and aldehyde-thionine positive nerve fibres are nearly absent.A slender lamina (ependymal border) containing mainly aldehyde-thionine-positive nerve fibres and ependymal cells connects the median eminence to the pars nervosa.At the ultrastructural level, in the outer zone of the medial region at least 4 types of nerve fibres and nerve endings are identified:Type I nerve fibres containing granular vesicles of 700–1000 Å and clear vesicles (250–400 Å).Type II nerve fibres containing granular vesicles and polymorphous granules of 900–1300 Å and clear vesicles (250–400 Å).Type III nerve fibres containing dense granules of 1200–2000 Å and clear vesicles of 250–400 Å.Type IV nerve fibres containing only clear vesicles of 250–400 Å. In the inner zone too, all these nerve fiber types are found among ependymal cells, while the fibrous layer consists of nerve fibres containing granules of 1200–2000 Å in diameter.In the lateral regions Type I, Type II and Type IV nerve fibres and their respective perivascular terminals are found; axons containing dense granules (1200–2000 Å) are scanty. In these regions typical synapses between Type I nerve fibres and processes rich in microtubules are visible.The classification and functional significance of nerve fibres in the median eminence are still unsolved, but it may be assumed that nerve fibres of the medial region belong to both the preoptic hypophyseal and tubero hypophyseal tract, while the lateral regions are characterized by nerve fibres of the tubero hypophyseal tract. Peculiar specializations of the ependymal cells in the median eminence of the newt are also discussed.Work supported by a grant from the Consiglio Nazionale delle Ricerche.The authors are indebted to Mr. G. Gendusa and P. Balbi for technical assistance.     

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