Detection of capsule and slime polysaccharide layers in two strains of Rhodopseudomonas capsulata

A capsule and slime were visualized electronmicroscopically in Rhodopseudomonas capsulata strain St. Louis (=ATCC 23782) and strain Sp 11 after pre-incubation of the cells in the homologous O/K antisera. The slime consists of loosely associated material surrounding the cell in irregular distribution. The capsule is directly adjacent to the cell wall and has a constant thickness of 75–85 nm in strain St. Louis and 30–40 nm in strain Sp 11. The capsule has a fibrillar fine-structure with radial orientation to the cell surface. In contrast to the slime, it is not removed from the cells by washing with saline.An acidic polysaccharide fraction was obtained from both strains by cetavlon fractionation of hot phenol-water extracts. The composition is strain-specific: the relative amounts of the common sugars found, i.e. rhamnose, galactose, glucose, glucosamine and galacturonic acid are different, the fraction from strain Sp 11 contains additionally fucose, 3-amino-3,6-dideoxygalactose, an unknown amino sugar and an unknown acidic component. Whether the polysaccharides of these fractions are in fact the slime or capsular substances remains to be established.     

The effect of protease digestion (in situ) on the slime substance of mature sieve tubes

Summary The sieve tube slime of Tetragonia and Lycopersicum petiolar phloem was subjected to proteolytic enzymes both before and after embedding and sectioning. Subsequent electron microscopical examination confirmed that the fibrillar material is protein in nature, and provided evidence that the protein is acidic rather than basic.     

Intranucleolar visualization of nucleic acids and acidic proteins in inhibited and reactivated pea cotyledonary buds

Summary Nuclease-colloidal gold complexes and silver staining were used to visualize intranucleolar nucleic acids and argyrophilic proteins of the nucleolar organizers in bud cotyledonary cells ofPisum sativum. In the G_0–1 inhibited bud, a few RNA molecules were detected in the fibrillar component and in the unique fibrillar centre, close to the boundary with the fibrillar component of the nucleolus. DNA was present in the fibrillar component, in the fibrillar centre and in a few fibres crossing the perinucleolar halo. The acidic proteins were localized at the periphery of the fibrillar component but they were also present in the unique fibrillar centre. In the reactivated bud, RNA was particularly concentrated in the granular component and along fibres crossing the perinucleolar halo; a few RNA molecules were also detected at the boundary between the small fibrillar centres and the fibrillar component. DNA was localized in the same nucleolar component as in the inhibited bud, but it was distributed between several fibrillar centres. Acidic proteins coated these DNA loci. In the inhibited and reactivated bud connections between nucleolar DNA containing structures were displayed. The data are discussed in relation to the present knowledge of the functional architecture of the nucleolus.Abbreviations DNA deoxyribonucleic acid - DNase deoxyribonuclease - G_0–1 phase G₁ phase of the cell cycle indefinitely prolonged - PEG polyethylene glycol - RNA ribonucleic acid - RNase ribonuclease - S and G₂ phases synthetic and postsynthetic phases of the cell cycle - SPB saline phosphate buffer     

Electron microscope investigation of sieve-element ontogeny and structure inUlmus americana

Summary During advanced stages of sieve-element differentiation inUlmus americana L., dispersal of the P-protein (slime) bodies results in formation of a peripheral network of strands consisting of aggregates of P-protein components having a striated, fibrillar appearance. The tonoplast is present throughout the period of P-protein body dispersal. Perforation of the sieve plates is initiated during early stages of P-protein body dispersal.Small P-protein bodies consist of tubular components, most of which measure about 180 Å in diameter. With increase in size of the P-protein bodies narrower components appear. At the time of initiation of P-protein body dispersal, most of the components comprising the bodies are of relatively narrow diameters (most 130–140 Å) and have a striated, fibrillar appearance. Both wide and narrow P-protein components are present throughout the period of sieve-element differentiation and in the mature cell as well, and a complete intergradation in size and appearance exists between the two extremes. Both extremes of P-protein component have a similar substructure: an electron-transparent lumen and an electronopaque wall composed of subunits, apparently in helical arrangement. The distribution of P protein in mature sieve elements was quite variable.The parietal layer of cytoplasm in matureUlmus sieve elements consists of plasmalemma, endoplasmic reticulum cisternae in two forms (as a complex network closely applied to the plasmalemma and in stacks along the wall), mitochondria, and plastids.     

煤绒菌Fuligo septica显型原质团细胞核及菌核的超微结构

从煤绒菌显型原质团中提纯细胞核、核仁,诱导原质团形成菌核,并在透射电镜下观察。研究结果表明:细胞核具有中央核仁,核仁可以看到明显的纤维中心、致密纤维中心和颗粒结构。原质团中存在大量的黏液颗粒。菌核具有双层膜,内含有细胞器及脂滴。     

煤绒菌Fuligo septica显型原质团细胞核及菌核的超微结构

从煤绒菌显型原质团中提纯细胞核、核仁,诱导原质团形成菌核,并在透射电镜下观察。研究结果表明:细胞核具有中央核仁,核仁可以看到明显的纤维中心、致密纤维中心和颗粒结构。原质团中存在大量的黏液颗粒。菌核具有双层膜,内含有细胞器及脂滴。     

Ultrastructural Distribution of DNA within Plant Meristematic Cell Nucleoli during Activation and the Subsequent Inactivation by a Cold Stress

We have investigated the precise location of DNA within the meristematic cell nucleolus ofZea maysroot cells andPisum sativumcotyledonary buds, in the course of their activation and induced inactivation following a subsequent treatment at low temperature. For this purpose, we combined the acetylation method, providing an excellent distinction between the various nucleolar components, with thein situterminal deoxynucleotidyl transferase-immunogold technique, a highly sensitive method for detecting DNA at the ultrastructural level. In addition to the presence of DNA in the condensed chromatin associated with the nucleolus, we demonstrated that a significant label was detected in the nucleolus of quiescent cells in both plant models. Evident labels were also found in the dense fibrillar component of actived nucleoli. Whereas in inactivated nucleoli no significant label was observed within the dense fibrillar component, an intense label was seen over the large heterogeneous fibrillar centres only during inactivation. The granular component was never significantly labelled. These results appear to indicate that the DNA present in the dense fibrillar component of activated nucleoli withdraws from this structure during its inactivation and becomes incorporated in the large fibrillar centres. These observations suggest that in plant cells inactivation of rRNA genes is clearly accompanied by changes in the conformation of ribosomal chromatin.     

Spherule wall formation inPhysarum polycephalum

Summary Microplasmodia ofPhysarum polycephalum Schw differentiate into numerous hard walled spherules when deprived of nutrients. Cleavage occurs by invagination of the plasmalemma and growth of furrows centripetally. Cleavage furrows consistently contain ruthenium red positive fibrillar material. As the spherules become more rounded, a compact layer of ruthenium red positive material surrounds their membranes. A spherule wall which does not bind ruthenium red is deposited inside of the stained layer. Clusters of spherules are enclosed by ruthenium red positive material similar to the microplasmodial slime.Partially supported by a grant from Research Corporation.     

Slime Production by Pseudomonas aeruginosa

Two samples of slime obtained from Pseudomonas aeruginosa strains, IFO 3445 and No. 24, the latter which produced mucoid colonies on brain heart infusion agar as well as on the synthetic agar medium, were investigated for their physicochemical properties, primarily for their viscosities. Results obtained indicated that the principal component of the slime from strain IFO 3445 might be a deoxyribonucleic acid-like substance, while the slime from the mucoid strain No. 24 might be an alginic acid-like substance.     

Immunoelectron microscopic localization of the nucleolar protein B-36 (fibrillarin) during the cell cycle of Physarum polycephalum

Monoclonal antibodies raised against the 34-kD nucleolar protein, B-36, from the slime mold Physarum polycephalum have been used to examine the electron microscopic localization of B-36 during the cell cycle in Physarum. During interphase, B-36 is found primarily in regions corresponding to the dense fibrillar component. This is similar to what has been observed for the putative mammalian homologue of B-36, fibrillarin. During mitosis, B-36 remains associated with perichromosomal nucleolar remnants. With the Gautier DNA-specific staining procedure, the same nucleolar remnants are shown to contain short DNA segments, presumably rDNA molecules. These findings suggest that in Physarum, where the nucleolus is composed of several hundred extrachromosomal rDNA molecules, the dense fibrillar component and the "NOR" equivalents do not separate during mitosis as in mammalian cells. In addition, the B-36-enriched nucleolar remnants appear to be recycled from one cell cycle to the next.     

THE ULTRASTRUCTURE OF CARPOSPOROGENESIS IN CALOGLOSSA LEPRIEURII (DELESSERIACEAE,CERAMIALES)

Carposporogenesis in Caloglossa leprieurii is divided into three cytological stages. At stage I, the young spores have few plastids and little starch. Abundant dictyosomes secrete a gelatinous wall layer in scale-like units. At stage II, dictyosomes produce a second fibrillar wall component in addition to the gelatinous constituent. Large fibrillar vesicles accumulate in the cytoplasm. Production of gelatinous material decreases in this stage. By stage III, starch grains and fully developed plastids are abundant. Rough endoplasmic reticulum occupies much of the peripheral cytoplasm. A dense, granular proteinaceous component appears in the wall in association with the fibrillar layer. Arrays of randomly oriented tubules are scattered in the cytoplasm. The mature carpospore is surrounded by an outer gelatinous wall layer and an inner fibrillar layer. Few dictyosomes persist in the mature spore. Carposporogenesis in Caloglossa is compared with that in other red algae.     

ULTRASTRUCTURE OF THE SECONDARY PHLOEM OF TILIA AMERICANA

Summer and winter (July and January) samples of secondary phloem of Tilia americana were studied with the electron microscope. Parenchyma cells contain: nuclei, endoplasmic reticulum, ribosomes, plastids, mitochondria and occasional dictyosomes. Well-defined tonoplasts separate vacuoles from cytoplasmic ground substance. Vacuoles often contain tannins. Lipid droplets are common in cytoplasm. Endoplasmic reticulum–connected plasmodesmata are aggregated in primary pit fields. Companion cells differ from parenchyma cells in having numerous sieve-element connections, possibly slime, and in lacking plastids. Mature, enucleate sieve elements possess 1–4 extruded nucleoli. Numerous vesicles occupy a mostly parietal position in association with plasmalemma. The mature sieve element lacks endoplasmic reticulum, organelles (except for few mitochondria) and tonoplast. In OsO_4– and glutaraldehyde-fixed elements, slime has a fine, fibrillar appearance. Normally, these fine fibrils are organized into coarser ones which form strands that traverse the cell and the plasmalemma-lined pores of sieve plates and lateral sieve areas.     

Relative position of nucleolar chromatin and nucleolar components in ciliate <Emphasis Type="Italic">Didinium nasutum</Emphasis> somatic nuclei

According to our computer modeling data obtained earlier, nucleoli in interphase ciliates Didinium nasutum are complex netlike structures, in which the trabeculumor lamella-shaped fibrillar component is located on the periphery, and the granular component in the central part of the nucleolus. Chromatin bodies connected with nucleoli act as the nucleolar organizers in D. nasutum. In the present work, the arrangement of all chromatin bodies, which could correspond to nucleolar organizers by morphological criteria, is studied by means of a 3D-reconstruction. It is shown that all of these chromatin bodies are localized outside the nucleoli, on the fibrillar component’s periphery. Even those chromatin bodies which appeared to be completely surrounded by the fibrillar nucleolar component on single ultrathin sections are actually settled down in nucleolus cavities open to the nucleoplasm. This proves that the RNA processing in D. nasutum nucleoli is directed toward the center of nucleoli, where the granular component is located. The analysis of the nucleolar chromatin distribution made it possible to conclude that different parts of the complex interfase netlike nucleoli of D. nasutum have approximately the same activity.     

Characterisation of the slime gland secretion from the peripatus, Euperipatoides kanangrensis (Onychophora: Peripatopsidae)

The Onychophora display a distinctive mechanism of feeding that involves the entanglement of prey in a sticky secretion. This secretion is produced in the slime glands and ejected as adhesive threads from a pair of oral papillae on either side of the head. Biochemical analyses of the secretion reveals it to be a composite material containing protein, sugar, lipid and a surfactant, nonylphenol. The identification of nonylphenol in the secretion is significant in that this is the first report of this compound from a natural source. The proteins are the principal component of the slime and the amino acid composition of the crude secretion suggests the presence of collagen or a ‘collagen-like’ domain. One or more of the high molecular weight proteins are O-glycosylated where the predominant modification is a single N-acetylgalactosamine (GalNAc). This study adds to our understanding of the chemical and biochemical composition of the unusual onycophoran slime gland secretion.     

Fruit structure of 12 Turkish endemic <Emphasis Type="Italic">Tripleurospermum</Emphasis> Sch. Bip. (Asteraceae) taxa and its taxonomic implications

This study concerns the evaluation of micromorphological and anatomical characters of fruit (achene-cypsela) in 12 Turkish endemic Tripleurospermum taxa using multivariate analyses (cluster analysis, principal component analysis, one-way analysis of variance). Pericarp in all taxa examined is mainly composed of several layers of parenchymatous and sclerenchymatous cells with one vascular bundle in each rib. In the achene, the thickness and width of lateral and adaxial ribs with presence or absence of a slime envelope have high taxonomic value for Tripleurospermum at interspecific levels. The slime envelope formation is also correlated with ploidy levels and habitats of some taxa in Tripleurospermum.     

Ultrastructural localization of DNA and RNA in Allium porrum interphase cells by means of nuclease-gold complexes

Summary Nucleic acids have been localized inAllium porrum interphase meristematic cells by means of labelling with nuclease-gold complexes, a technique which provides high resolution and improved specificity. DNase-gold labelling was observed over dense chromatin and to a lesser extent over dispersed chromatin. Nucleolar labelling was restricted to the dense fibrillar component, very few particles being located over the fibrillar centres. Labelling by the RNase-gold complex was present over both the cytoplasm and the nucleoplasm. Cytoplasm labelling was intense over the rough endoplasmic reticulum but absent over vacuoles. In the nucleoplasm many gold particles were located at the border between the condensed and the dispersed chromatin. Nucleolar labelling was intense over the granular zones but many gold particles were also seen over the dense fibrillar component. Fibrillar centres showed, however, no labelling with the RNase-gold complex. These results are consistent with previous autoradiographic and cytochemical observations carried out on the same plant material.     

Slime Production by Pseudomonas aeruginosa

Chemical properties and compositions of slimes produced by two Pseudomonas aeruginosa strains of different colonial types were investigated. The main component of the slime from strain IFO 3445 was found to be DNA, contaminated with small amounts of protein. On the other hand, the slime from a mucoid-type strain No. 24 was an alginate-like substance consisting of mannuronic and glucuronic acids, and contained traces of protein and nucleic acid. Slimes from twenty clinical isolates of P. aeruginosa were investigated for their chemical compositions. Slimes from eighteen strains consisted of DNA, while, two strains of a mucoid-type produced slimes composed of polyuronic acid.     

Achene morphology and slime structure in some taxa of Artemisia L. and Neopallasia L. (Asteraceae)

We have examined slime cell distribution on the surface of the achenes of some Artemisia and Neopallasia taxa, as well as slime composition, envelope formation during the hydration, and slime relation to different morphological features and environmental factors. The results of the studies show a characteristic pattern of slime cells distribution, which could differ between taxa. The slime in the taxa studied belongs to the cellulose type and consists of two components i.e., pectins and cellulose. Although all fruits contain slime cells, not all of them show the slime envelope formation. Plants occurring in dry habitats (such as A. barrelieri) or annual species (such as A. annua) are characterised by a large amount of slime and a fast process of slime envelope formation. Slime production has not been observed in some polyploid populations (A. campestris and A. campestris ssp. sericea) and in two species occurring in relatively fertile habitats (A. verlotiorum, A. vulgaris). A reason for this may be either the immaturity of polyploid fruits leading to the production of a scarce, not detectable slime amount or, alternatively, the occurrence of not functional slime cells. Slime facilitates and stimulates the germination, as well as the adherence of the fruits to the ground or to animals (for dispersal). The slime could play important role in the distribution and colonisation of new habitats in many Artemisia taxa.     

Fine structure and distribution of extracellular polymer surrounding selected aerobic bacteria.

The structure and distribution of extracellular polymer surrounding Bacillus circulans, Diplococcus (Streptococcus) pneumoniae, Streptococcus salivarius, Staphylococcus aureus, Klebsiella pneumoniae, Pseudomonas aeruginosa, Herella vaginacola (Acinetobacter calcoaceticus), and Agrobacterium tumefaciens were studied by electron microscopy. A modified ruthenium red staining procedure was used to examine the fine structure of capsule and slime. Freeze-etching and critical-point drying were used to examine the quantity of unaltered exocellular material. Comparative data demonstrate that fibrillar extracellular polymer surrounding B. circulans, D. pneumoniae, and K. pneumoniae is capsule (cell wall attached) which is characteristic of the producing organism. Capsular polymer generally appeared fibrillar, although globular polymer consisted of capsular subunits bound to S. salivarius and H. vaginacola. Exocellular slime was present about S. aureus, P. aeruginosa, and A. tumefaciens.