Showing papers in "Protoplasma in 1998"

Callose deposition at plasmodesmata

Abstract: The transport of ions and metabolites through plasmodesmata has been thought to be controlled at the neck region where the cytoplasmic annulus is constricted and where callose has also been localised. In order to determine the possible structural and functional effects of callose, its deposition was inhibited through incubation of the plant tissue with 2-deoxy-D-glucose (DDG) for 1 h prior to fixation in 2.5% glutaraldehyde. The inhibition of callose formation was monitored through aniline blue-induced fluorescence of callose. The neck region of the plasmodesmata fromAllium cepa L. roots treated with DDG exhibited a funnel-shaped configuration. This is in contrast to the plasmodesmata from tissue not incubated with DDG, which exhibited constricted necks similar to those previously reported. Both initial dissection and glutaraldehyde fixation induced neck constriction in plasmodesmata, however, dissection of tissue increased the frequency of constrictions. The inhibition of callose formation by chemical means showed that the neck constrictions and raised collars in this area are artefacts due to physical wounding and glutaraldehyde fixation. The external electron-dense material observed when tannic acid is included in the primary fixative appears to be unrelated to the deposition of callose at the neck region.

Confocal fluorescence microscopy of plant cells

Abstract: The confocal laser scanning microscope (CLSM) has become a vital instrument for the examination of subcellular structure, especially in fluorescently stained cells Because of its ability to markedly reduce out-of-focus flare, when compared to the conventional wide-field fluorescence microscope, the CLSM provides a substantial improvement in resolution along the “z” axis and permits optical sectioning of cells These developments have been particularly helpful for the investigation of plant cells and tissues, which because of their shape, size, and optical properties have been difficult to analyze at high resolution by conventional means We review the contribution that the CLSM has made to the study of plant cells We first consider the principle of operation of the CLSM, including a discussion of image processing, and of lasers and appropriate fluorescent dyes We then summarize several studies of both fixed and live plant cells in which the instrument has provided new or much clearer information about cellular substructure than has been possible heretofore Attention is given to the visualization of different components, including especially the cytoskeleton, endomembranes, nuclear components, and relevant ions, and their changes in relationship to physiological and developmental processes We conclude with an effort to anticipate advances in technology that will improve and extend the performance of the CLSM In addition to the usual bibliography, we provide internet addresses for information about the CLSM

Antioxidant defences of the apoplast

Abstract: The apoplast of barley and oat leaves contained superoxide dismutase (SOD), catalase, ascorbate peroxidase, dehydroascorbate reductase, monodehydroascorbate reductase, and glutathione reductase activities. The activities of these enzymes in the apoplastic extracts were greatly modified 24 h after inoculation with the biotrophic fungal pathogenBlumeria graminis. The quantum efficiency of photosystem II, which is related to photosynthetic electron transport flux, was comparable in inoculated and healthy leaves during this period. Apoplastic soluble acid invertase activity was also modified in inoculated leaves. Inoculation-dependent increases in apoplastic SOD activity were observed in all lines. Major bands of SOD activity, observed in apoplastic protein extracts by activity staining of gels following isoelectric focusing, were similar to those observed in whole leaves but two additional minor bands were found in the apoplastic fraction. The apoplastic extracts contained substantial amounts of dehydroascorbate (DHA) but little or no glutathione (GSH). Biotic stress decreased apoplastic ascorbate and DHA but increased apoplastic GSH in resistant lines. The antioxidant cycle enzymes may function to remove apoplastic H2O2 with ascorbate and GSH derived from the cytoplasm. DHA and oxidized glutathione may be reduced in the apoplast or returned to the cytosol for rereduction.

Trans-plasma membrane electron transport: A cellular assay for NADH- and NADPH-oxidase based on extracellular, superoxide-mediated reduction of the sulfonated tetrazolium salt WST-1

Abstract: Plasma membrane NADH-oxidase of mammalian cells is usually assayed biochemically in isolated plasma membranes by measuring its ability to oxidise NADH or to reduce oxygen to water. Lack of a convenient cellular assay has greatly limited the study of NADH-oxidase, the physiological significance of which remains uncertain. Recently, we demonstrated that the novel cell-impermeative sulfonated tetrazolium salt WST-1 (2-[4-iodophenyl]-3-[4-nitrophenyl]-5-[2,4-disulfophenyl]-2H-tetrazolium, monosodium salt), used in conjunction with an intermediate electron acceptor, was reduced extracellularly suggesting involvement of a component of the trans-plasma membrane electron transport system in WST-1 reduction. In this study we provide evidence that WST-1 is reduced at the external surface of the plasma membrane by an NADH-oxidase, and that reduction is primarily mediated by superoxide. Thus, WST-1 reduction was extensively inhibited by superoxide dismutase and by the potent NADH-oxidase inhibitor resiniferatoxin. Dihydrocapsaicin and capsaicin which are less potent inhibitors of NADH-oxidase also inhibited WST-1 reduction, but the impermeative SH-blocking reagentpara-chloromercuriphenylsulfonic acid and trypsin, both of which are known to inhibit NADH-ferricyanide reductase but not NADH oxidase, had little effect on WST-1 reduction. Human peripheral blood neutrophils activated by phorbol myristate acetate efficiently reduced WST-1. This reduction was inhibited by 95% by superoxide dismutase but was unaffected by resiniferatoxin indicating a distinct mechanism of reduction by neutrophil NADPH-oxidase. Metabolic inhibitors were used to investigate putative involvement of cytosolic NADH in WST-1 reduction. Mitochondrial inhibitors such as cyanide and thenoyltrifluoroacetone, and to a lesser extent azide and rotenone, stimulated WST-1 reduction by Jurkat cells whereas inhibitors of glucose uptake and glycolysis were inhibitory. These results are explained by respiratory inhibitors having a sparing effect on cytosolic NADH levels and by glycolytic inhibitors lowering NADH. We conclude that WST-1 is reduced extracellularly by plasma membrane NADH-oxidase by a mechanism involving superoxide production. WST-1 is also efficiently reduced by the plasma membrane NADPH-oxidase of activated neutrophils.

Three-dimensional periodic cubic membrane structure in the mitochondria of amoebae Chaos carolinensis

Abstract: Through computer simulation of images produced by the transmission electron microscope (TEM), we have identified three-dimensional periodic cubic membrane structures in giant amoebae ( Chaos carolinensis) mitochondria. The cubic membranes are based on the highly curved three-dimensional periodic cubic surfaces, sharing the same geometry of mathematically defined periodic minimal surfaces. The double-membrane structures identified here divide space into three separate and convoluted subspaces. Specimen preparation, specifically the tendency to cut oblique sections, of this membrane crystal has added to the complexity of the resulting TEM projections and until now prevented researchers from recognizing them. It is the added complexity of the oblique sections, though, that allows us to match the TEM projection to a computer simulation of the same with confidence. In this study, formation of cubic membrane structures in amoeba mitochondria was found to be dependent on diet. The cubic structures only occurred in the absence of food, and disappeared in the presence of food, suggesting a structural adaptation and possible advantages for amoeba's survival in nature. The verification of mathematically well-defined structures in unfed amoeba mitochondria is also important to the understanding of the mitochondrial bioenergetics in relation to the topology of the inner membrane, where major cellular energy production as well as free-radical generation are taking place. This understanding may carry great impact upon human health as far as aging and age-related degenerative diseases are concerned, especially as mitochondrial disorders have been implicated in these processes.

Directional cell-to-cell communication in the Arabidopsis root apical meristem I. An ultrastructural and functional analysis

Abstract: As a foundation for studies on directional intercellular communication and its regulation in apical development, the network of plasmodesmata in Arabidopsis root apical meristems was characterized by quantitative electron microscopy and dye-coupling analysis, using symplasmic probes, and real-time imaging in confocal laser scanning microscopy. A tissue-specific plasmodesmatal network, which interconnected the cells in the root apical meristem, was characterized by the following features, (a) Plasmodesmatal distribution and density were found to be tissue-specific, (b) Primary and secondary plasmodesmata were differentially grouped and regulated. Primary plasmodesmata were formed in large numbers in the transverse walls of each tissue, and were subject to deletion during cell differentiation. Secondary plasmodesmata were mostly distributed in longitudinal walls between cell files and common walls between neighboring tissues; they also provided a symplasmic path between different initial tiers in the meristem. Small fluorescent tracers moved through the plasmodesmatal network of the root apical meristem in two distinct phases. At low concentrations molecules trafficked in a non-tissue-specific manner, whereas at higher concentrations, their distribution reflected the presence of tissue-specific movement consistent with plasmodesmatal distribution. These findings are discussed in terms of the role of tissue-specific plasmodesmatal domains in the control of root development.

A morphological and histological comparison of the initiation and development of pecan ( Carya illinoinensis ) somatic embryogenic cultures induced with naphthaleneacetic acid or 2,4-dichlorophenoxyacetic acid

Abstract: Somatic embryos produced in vitro may exhibit structural abnormalities that affect their subsequent germination and conversion into plants. To assess the influence of auxin type on embryo initiation and development, a morphological and histological comparison was made of pecan (Carya illinoinensis) somatic embryogenic cultures induced on media with naphthaleneacetic acid or 2,4-dichlorophenoxyacetic acid (2,4-D), using light and scanning electron microscopy. Both auxins promoted enhanced cell division, particularly in subepidermal cell layers. However, notable differences were observed in mitotic activity, location of embryogenic cell proliferation, epidermal continuity, callus growth, and embryo morphology. Cultures induced on naphthaleneacetic acid had embryogenic regions composed of homogeneous, isodiametric, meristematic cells. Embryos derived from these cultures generally had a normal morphology, were single, and had a discrete apical meristem. In contrast, tissues induced on media with 2,4-D had more intense and heterogeneous regions of cell division. Proliferating cell regions were composed of meristematic cells interspersed with callus and involved more extensive regions of the mesophyll. Marked callus proliferation caused epidermal rupture in some areas. Embryos induced on medium with 2,4-D had a higher incidence of abnormalities that included fasciated, fan-shaped, and tubular embryos. Defined apical meristems were often lacking or partially obliterated due to callus proliferation. The heterogeneous, often intensive proliferation of cells in cultures induced with 2,4-D may interfere with normal patterns of embryo development.

Green- and blue-light-mediated chloroplast migration in the centric diatomPleurosira laevis

Abstract: The existence of two photoreceptors regulating chloroplast orientation was found in the centric diatomPleurosira laevis. Chloroplasts migrate through the transvacuolar cytoplasmic strands according to the light conditions. Weak white light of less than 46 μmol/m2 · s (10 W/m2) induces chloroplast movement to the cortical cytoplasm, which is located next to the plasma membrane (dispersion), while intense white light of more than 92 μmol/m2 · s (20 W/m2) induces chloroplast movement towards the nucleus, which is situated in the center of the cell (assemblage). Chloroplast dispersion was maintained as long as the cells were irradiated with weak white light. Conversely, chloroplast assemblage under intense white light was transient and the chloroplasts were released from assemblage after 15 min. Action spectra determined with the Okazaki Large Spectrograph revealed that the weak white light receptor and the intense white light receptor are characterized by 540 nm and 450 nm optima, respectively.

Quinones in plant plasma membranes — a missing link?

Abstract: The occurrence of a vitamin-K-like substance (naphthoquinone group) and flavins (flavin mononucleotide and flavin adenine dinucleotide) is demonstrated in plasma membranes isolated from maize (Zea mays L.) roots, on the basis of high-pressure liquid chromotography and spectral analysis. At least three NAD(P)H dehydrogenases could be purified to homogeneity from this plant material. Two of these proteins (25 and 30 kDa) reduce hexacyanoferrate III and quinones, while the third (41 kDa) reduces oxalacetic acid but not hexacyanoferrate III in the presence of NADH. Low-temperature spectra demonstrate the occurrence of a b-type cytochrome in plasma membranes isolated from maize roots. The latter compound could be reduced by ascorbic acid (E0′ > +80 mV) and shows an α-band maximum at 559 nm (at −196 °C). NADH-dependent cytochromeb reduction could be observed only in the presence of detergent and increased after preincubation with vitamin K3 (menadione). On the basis of the presented data a possible function of naphthoquinones in plasma membrane electron transfer is discussed.

Immunolocalization of β-(1→4) and β-(1→6)-D-galactan epitopes in the cell wall and Golgi stacks of developing flax root tissues

Abstract: Most cell wall components are carbohydrate including the major matrix polysaccharides, pectins and hemicelluloses, and the arabinogalactan-protein proteoglycans. Both types of molecules are assembled in the Golgi apparatus and transported in secretory vesicles to the cell surface. We have employed antibodies specific to β-(1→6) and β-(1→4)-D-galactans, present in plant cell wall polysaccharides, in conjunction with immunofluorescence and electron microscopy to determine the location of the galactan-containing components in the cell wall and Golgi stacks of flax root tip tissues. Immunofluorescence data show that β-(1→4)-D-galactan epitopes are restricted to peripheral cells of the root cap. These epitopes are not expressed in meristematic and columella cells. In contrast, β-(1→6)-D-galactan epitopes are found in all cell types of flax roots. Immunogold labeling experiments show that both epitopes are specifically located within the wall immediately adjacent to the plasma membrane. They are also detected in Golgi cisternae and secretory vesicles, which indicates the involvement of the Golgi apparatus in their synthesis and transport. These findings demonstrate that the synthesis and localization of β-(1→4)-D-galactan epitopes are highly regulated in developing flax roots and that different β-linked D-galactans associated with cell wall polysaccharides are expressed in a cell type-specific manner.

The auxin response of actin is altered in the rice mutant Yin-Yang

Abstract: The rice mutantYin-Yang has been selected during a screen for resistance to cytoskeletal drugs and is characterized by alterations in epidermal cell length and a precocious onset of gravitropism. The elongation response of coleoptile segments to auxin does not reveal changes of auxin sensitivity inYin-Yang. However, in contrast to the wild type, cell elongation inYin-Yang is highly sensitive to the actin-polymerisation blocker cytochalasin D. This increased sensitivity to cytochalasin D requires optimal concentrations of auxin to become manifest. The auxin response of actin microfilaments in epidermal cells differs between wild type and mutant. In the wild type, the longitudinal microfilament bundles become loosened in response to auxin. In the mutant, these bundles disintegrate partially and are replaced by a network of short filaments surrounding the nucleus. Several aspects of the mutant phenotype can be mimicked in the wild type by treatment with cytochalasin D. The mutant phenotype is discussed in terms of signal-dependent changes of actin dynamics and the putative role of actin during cell elongation.

Immunogold localization of pectin methylesterases in the cortical tissues of flax hypocotyl

Abstract: Pectin methylesterases (PMEs, EC 3.1.1.11) catalyse the deesterification of pectins. Up to now, most information concerning their location was obtained from biochemical analyses. Taking advantage of specific anti-PME antibodies, we report the precise localization of PMEs at the electron microscopy level within the different cortical tissues of flax hypocotyl. Quantitative data on the densities of immunolabelling have been collected, using anti-PME antibodies as well as JIM5 and JIM7 monoclonal antibodies. Our findings show a co-localization of PMEs and acidic pectins (as revealed by JIM5 antibodies) within specific cell wall microdomains. Moreover, PME epitopes are associated with the cellular membranes, particularly with the plasmalemma.

In vivo studies on the nuclear behavior of the arbuscular mycorrhizal fungus Gigaspora rosea grown under axenic conditions

Abstract: The distribution and fate of nuclei of the arbuscular-my-corrhizal fungusGigaspora rosea during late stages of axenic cultures were studied in fixed cultures by transmitted light, conventional and confocal laser scanning microscopy, and in live cultures with two-photon fluorescence microscopy. Mature specimens not yet showing apical septation displayed oval-shaped nuclei localized in lateral positions of the hypha all along the germ-tube length. Beside these, round-shaped nuclei were found to migrate along the central germ-tube core. Some (rare) germ-tube areas, delimited by septa and containing irregularly shaped, much brighter fluorescent nuclei were also found. Specimens that had just initiated the septation process after germ-tube growth arrest displayed round or oval-shaped nuclei in several portions of the germ tubes. These hyphal areas often alternated with other septa-delimited cytoplasmic clusters which contained distorted, brightly fluorescent nuclei. Completely septated specimens mostly lacked nuclei along their germ tubes. However, highly fluorescent chromatin masses appeared within remnants of cytoplasmic material, often compressed between close septa. Our results provide a first clear picture of the in vivo distribution of nuclei along arbuscular mycorrhizal fungal germ tubes issued from resting spores, and suggest that selective areas of their coenocytic hyphae are under specific, single nuclear control. They indicate as well that random autolytic processes occur along senescingG. rosea germ tubes, probably as a consequence of the absence of a host root signal for mycorrhizal formation. Finally, the data presented here allow us to envisage the fate of nuclei released by the germinating spore after nonsymbiotic fungal growth arrest.

Cloning and characterization of endosymbiotic algae isolated from Paramecium bursaria

Abstract: The green parameciumParamecium bursaria has many endosymbiotic algae in its cytoplasm. Here, we cloned and characterized endosymbiotic algae fromP. bursaria and examined in detail the interaction between the cloned algae and algae-free paramecia. Homogenates ofP. bursaria were cultured on agar plates containing various kinds of media to establish clones of the endosymbiotic algae. Many algal colonies were obtained from poorly nutritious medium (CA medium) after one month in culture. Algae were picked up from these colonies and inoculations were repeated 9 times on agar plates containing CA medium. On enriched media including bacto-peptone, glucose, proteose-peptone and/or yeast extract, however, bacteria and mold grew rapidly and no algal colonies were formed. When the cloned algae were cultured in liquid CA medium, they grew faster than on agar plates and the numbers stayed constant at 1 × 107 algae/ml after 7 days in culture. They revealed high infectivity to algae-free paramecia, and an incubation period of 24 h and at least 1 × 103 algae/paramecium were required to achieve successful infection (80–90%). The growth and infection rate did not change through 74 repeated inoculations of algae in liquid CA medium. Optical microscopic observations revealed marked morphological similarity between endosymbiotic algae and free-livingChlorella, but the latter showed no infectivity to algae-free paramecia. The cloned endosymbiotic algae presented here will provide an excellent opportunity to examine the mechanism of symbiont-host interaction.

Thin-alginate-layer technique for protoplast culture of tobacco leaf protoplasts : shoot formation in less than two weeks

Abstract: Regeneration of plants from protoplasts is regarded a difficult and lengthy procedure which requires well developed skills on the side of the experimenter. Therefore, where alternative procedures for genetic engineering of plants are available, protoplast-based techniques are frequently avoided. Here, we demonstrate, that by our newly developed thin-alginate-layer technique it is possible to regenerate shoots from leaf protoplasts ofNicotiana tabacum L. at very high efficiency and very rapidly, with the first shoots appearing within less than two weeks. Root formation is induced on a third medium with first roots being found after only 10 more days of culture.

Localization of glucuronoxylans in Japanese beech visualized by immunogold labelling

Abstract: An antiserum against glucuronoxylans (GXs) has been raised from a mouse. The dot-blot immunoassay and competitive inhibition test indicated that the antibodies could bind specifically to GXs. Therefore, the antiserum was used for immunogold labelling to investigate the localization of GXs in Japanese beech. Labelling of GXs was seen only in the secondary walls of xylem cells, but not in the primary walls or the middle lamella. GXs were evenly distributed in the secondary walls except for the outer part of the outer secondary-wall layer in which they were less abundant. The labelling density in each secondary-wall layer (S1, S2, and S3) increased during cell wall formation. This result strongly suggests that the deposition of GXs occurs in a penetrative way.

Directional cell-to-cell communication in theArabidopsis root apical meristem II. Dynamics of plasmodesmatal formation

Abstract: Cell development in the root apical meristem is thought to be regulated by position-dependent information, but as yet, the underlying mechanism for this remains unknown. In order to examine the potential involvement of the symplasmic transmission of positional signals, plasmodesmatal frequency and distribution was quantitatively analyzed in root apical meristem cell walls ofArabidopsis thaliana during root development. A consistent distribution pattern of plasmodesmata was observed in the root apex over four weeks. While cells within initial tiers were uniformly interconnected, more symplasmic connections between the initial tiers and their immature-cell (primary-meristem) derivatives were observed than within the initial tiers. Immature cells were connected across transverse walls by primary plasmodesmata according to a tissue-specific pattern. Cells of the immature vascular tissue and cortex had the highest plasmodesmatal frequencies, followed by the immature epidermis and root cap. Although the numbers of plasmodesmata in transverse walls (primary plasmodesmata) was reduced in all tissues as the root aged, the tissue-specific distribution remained constant. The extent of symplasmic coupling across the boundaries of each tissue appeared to be limited by fewer secondary plasmodesmata in longitudinal walls. The frequency of all plasmodesmata decreased as the root aged. The primary plasmodesmata within each tissue increased at one week and then dramatically decreased with root age; the frequency of secondary plasmodesmata in longitudinal walls also decreased, but more gradually. These findings are discussed with respect to the roles likely played by plasmodesmata in facilitating transport of position-dependent information during root development.

Immunolocalization of ferritin in determinate and indeterminate legume root nodules

Abstract: In eukaryotic organisms ferritin is a protein involved in the storage of iron. The occurrence of ferritin and its relationship to the effectiveness of the nitrogen-fixing activity have been previously studied during the early stages of the nodule development by biochemical methods. We have used immunocytochemistry techniques to determine the precise location of ferritin and the behavior of this protein along the nodule development. The major localization was found in plastids and amyloplasts of infected and uninfected cells of the three legume nodules studied. A decrease of the immunolabelling was observed in infected cells of lupin and soybean senescing nodules and in the senescent zone of indeterminate alfalfa nodules. In the cortex of soybean and lupin nodules, ferritin increased during nodule ageing and the immunogold particles were mainly located in crystalline structures. The putative role of ferritin and plastids during nodule development is discussed.

The plant cell body : a cytoskeletal tool for cellular development and morphogenesis

Abstract: Certain aspects of cellular behaviour in relation to growth and development of plants can be understood in terms of the “cell body” concept proposed by Daniel Mazia in 1993. During the interphase of the mitotic cell cycle, the plant cell body is held to consist of a nucleus and a perinuclear microtubule-organizing centre from which microtubules radiate into the cytoplasm. During mitosis and cytokinesis in meristematic cells, and also during the period of growth in post-mitotic cells immediately beyond the meristem, the plant cell body undergoes various characteristic morphological transformations, many of which are proposed as being related to changing structural connections with the actin-based component of the cytoskeleton and with specialized, plasma-membrane-associated sites at the cell periphery. In post-mitotic cells, these transformations of the plant cell body coincide with, and probably provide conditions for, the various pathways of development which such cells follow. They are also responsible, for the acquisition of new cellular polarities. Events in which the plant cell body participates include the formation of a mitotic spindle, phragmoplast, and new cell division wall, the rearrangement of a diffuse type of cell wall growth into tip growth (as occurs, e.g., during the initiation and subsequent development of root hairs), and the growth and division that occurs in reactivated vacuolate cells. If more evidence can be marshalled in support of the existence and properties of the plant cell body, then this concept could prove useful in interpreting the cytological bases of a range of developmental events in plants.

Cell-specific expression of two arabinogalactan protein epitopes recognized by monoclonal antobodies JIM8 and JIM13 in maize roots

Abstract: The cell-specific expression of two arabinogalactan protein (AGP) epitopes recognized by monoclonal antibodies JIM8 and JIM13 is reported in maize roots. Employing immunofluorescence and immunogold electron microscopy, the JIM8 antibody was shown to label exclusively protophloem sieve elements, while the JIM13 antibody labelled sieve elements very strongly and adjacent pericycle and companion cells, as well as sloughing root cap cells less strongly. Since the labelling of sieve elements with JIM8 antibody was specific and did not spread to other cell types during root development, it is concluded that this AGP epitope can serve as a specific marker of these specialized cells within the maize root. In the case of the AGP epitope recognized by JIM13 antibody, part of the immunofluorescence label was also found to be associated with cytoplasmic strands in the pericycle and sloughing root cap cells. Immunogold-labelling of sieve elements revealed the association of both AGP epitopes (JIM8 and JIM13) with cortical sieve element reticulum and plasma membranes. Labelling of sieve element reticulum was prominent at its domains of adhesion to the plasma membrane, P-type plastids, and mitochondria. Based on our subcellular studies, we propose a new function of AGP epitopes in endomembrane recognition and adhesion within the sieve elements of maize roots.

Contribution of a plasma membrane redox system to the superoxide production by wheat root cells

Abstract: Wound stress activated wheat root cells to produce oxygen radicals. The production was accompanied by an increased permeability for potassium ions and a depolarization of the plasma membrane. Various electron donors, such as the nonpenetrating donor potassium ferrocyanide as well as NADH and NADPH, caused the amplification of superoxide production by root cells. The $$O_2 ^{. - } $$ -generating system in wheat root cells was found to be considerably sensitive to diphenylene iodonium, which is generally considered as a suicide inhibitor of neutrophil NADPH oxidase, and to other inhibitors of flavoprotein activity, chlorpromazine and quinine. The xenobiotic compound amidopyrine caused activation of the $$O_2 ^{. - } $$ -generating system, which was depressed by DPI. The $$O_2 ^{. - } $$ -generating system in root cells was shown to be significantly dependent on calcium content. Calcium loading of the root cells induced a powerful increase of the superoxide release. Data obtained indicate that superoxide generation is one of the early events of the wound stress response. Redox systems of the plasma membrane may be involved in the superoxide production in response to wound stress and detoxification of xenobiotic compounds in root cells.

γ-Tubulin is a component of the Spitzenkörper and centrosomes in hyphal-tip cells of Allomyces macrogynus

Abstract: A monoclonal antibody was used to localize γ-tubulin in hyphal tip cells of the chytridiomycete fungusAllomyces macrogynus, and its distribution determined with standard epifluorescence and laser scanning confocal microscopy. The results demonstrate that γ-tubulin is a component of the Spitzenkorper and centrosomes. Immunoblot analysis of total soluble protein extracts separated by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis identified a single 56 kDa γ-tubulin-related polypeptide. Localization of γ-tubulin to the Spitzenkorper ofA. macrogynus provides evidence that the Spitzenkorper in this fungus functions as a microtubule-organizing center.

Optimizing conditions for tobacco BY-2 cell cycle synchronization

Abstract: Tobacco BY-2 cells have become a major tool in plant cell biological research, in part due to the availability of a cell cycle synchronization protocol. This method, pioneered by Nagata and coworkers, involves sequential treatments with aphidicolin (a DNA synthesis inhibitor) and propyzamide (a microtubule inhibitor which arrests mitosis). The effects of these inhibitors are reversible, allowing the cell culture to progress into M phase synchronously. However, attempts to reproduce high levels of synchrony with published protocols have not been uniformly successful. This paper describes critical parameters for cell cycle synchronization and documents the kinetics and variation typically found in using this protocol.

Cytoskeletal arrays in the cells of soybean root nodules: The role of actin microfilaments in the organisation of symbiosomes

Abstract: Within the infected cells of root nodules there is evidence of stratification and organisation of symbiosomes and other organelles. This organisation is likely to be important for the efficient exchange of nutrients and metabolites during functioning of the nodules. Using immunocytochemical labelling and confocal microscopy we have determined the organisation of cytoskeletal elements, micro tubules and actin microfilaments in soybean nodule cells, with a view to assessing their possible role in organelle distribution. Most microtubule arrays occurred in the cell cortex where they formed disorganised arrays in both uninfected and infected cells from mature nodules. In infected cells from developing nodules, parallel arrays of microtubules, transverse to the long axis of the cell, were observed. In incipient nodules, before release of rhizobia into the plant cells, the cells also had an array of microtubules which radiated from the nucleus into the cytoplasm. Three actin arrays were identified in the infected cells of mature nodules: an aster-like array which emanated from the surface of the nucleus, a cortical array which had an arrangement similar to that of the cortical microtubules, and, throughout the cytoplasm, an array of fine filaments which had a honeycomb arrangement consistent with a distribution between adjacent symbiosomes. Uninfected cells from mature nodules had only a random cortical array of actin filaments. In incipient nodules, the density of actin microfilaments associated with the nucleus and radiating through the cytoplasm was much less than that seen in mature infected cells. The cortical array of actin also differed, being composed of swirling configurations of filaments. After invasion of nodule cells by the rhizobia, the number of actin filaments emanating from the nucleus increased markedly and formed a network through the cytoplasm. Conversely, the cytoplasmic array in uninfected cells of developing nodules was identical to that in the cells of incipient nodules. The cytoplasmic network in infected cells of developing nodules is likely to be the precursor of the honeycomb array seen in mature nodule cells. We propose that this actin array plays a role in the spatial organisation of symbiosomes and that the microtubules are involved in the localisation of mitochondria and plastids at the cell periphery in the infected cells of root nodules.

Discovery of signaling effect of UV-B/C light in the extended UV-A/blue-type action spectra for step-down and step-up photophobic responses in the unicellular flagellate algaEuglena gracilis

Abstract: Cultures of unicellular algal flagellateEuglena gracilis grown in different conditions were subjected to action spectroscopy for step-down and step-up photophobic responses, respectively. The spectral region was extended into the UV-B/C as well as in the UV-A and visible regions with the Okazaki Large Spectrograph as the monochromatic light source. The photophobic responses of the cells were measured with an individual-cell assay method with the aid of a computerized video motion analyzer. In the UV-A and visible regions, the shapes of the action spectra were the so-called UV-A/blue type. In the newly studied UV-B/C region, new action peaks were found at 270 nm for the step-down response and at 280 nm for the step-up one. The absorption spectrum of flavin adenine dinucleotide (FAD) appeared to fit the action spectrum for the step-up response, whereas the shape of the step-down action spectrum, which has a UV-A peak (at 370 nm) higher than the blue peak (at 450 nm), appeared to be mimicked by the absorption spectrum of a mixed solution of 6-biopterin and FAD. These observations might also account for the fact that the UV-B/C peak wavelength at 270 nm of the action spectrum for the step-down response is shorter by 10 nm than the action spectrum for the step-up response at 280 nm.

The role of microfilaments in the organization and orientation of microtubules during the cell cycle transition from M phase to G1 phase in tobacco BY-2 cells

Abstract: During cell cycle transition from M to G1 phase, micro-tubules (MTs), organized on the perinuclear region, reached the cell cortex. Microfilaments (MFs) were not involved in this process, however, MFs accumulated to form a ring-like structure in the division plane and from there they elongated toward the distal end in the cell cortex. Subsequently, when MTs elongated along the long axis of the cells, towards the distal end, the MTs ran into and then associated with the predeveloped MFs in the cell cortex, suggesting the involvement of MFs in organizing the parallel oriented MTs in the cell cortex. When cortical MTs were formed in the direction transverse to the long axis of cells, the two structures were again closely associated. Therefore, with regards to the determination of the direction of organizing MTs, predeveloped MFs may have guided the orientation of MTs at the initial stage. Disorganization of MFs in this period, by cytochalasins, prevented the organization of cortical MTs, and resulted in the appearance of abnormal MT configurations. We thus demonstrate the involvement of MFs in determining the orientation and organization of cortical MTs, and discuss the possible role of MFs during this process.

Ubiquinol regeneration by plasma membrane ubiquinone reductase

Abstract: Several enzyme systems have been proposed to play a role in the maintenance of ubiquinol in membranes other than the inner mitochondrial membrane. The aim of this study was to investigate the mechanisms involved in NADH-driven regeneration of antioxidant ubiquinol at the plasma membrane. Regeneration was measured by quantifying the oxidized and reduced forms of ubiquinone by electrochemical detection after separation by high-performance liquid chromatography. Plasma membrane incubation with NADH resulted in the consumption of endogenous ubiquinone, and a parallel increase in ubiquinol levels. The activity showed saturation kinetics with respect to the pyridine nucleotides and was moderately inhibited byp-hydroxymercuribenzoate. Only a slight inhibition was achieved with dicumarol at concentrations reported to fully inhibit DT-diaphorase. Salt-extracted membranes displayed full activity of endogenous ubiquinol regeneration, supporting the participation of an integral membrane protein. In liposomes-reconstituted systems, the purified cytochromeb 5 reductase catalyzed the reduction of the natural ubiquinone homologue coenzyme Q10 at rates accounting for the activities observed in whole plasma membranes, and decreased the levels of lipid peroxidation. Our data demonstrate the role of the cytochromeb 5 reductase in the regeneration of endogenous ubiquinol.

Heat-shock protein 90 is associated with microtubules in tobacco cells

Abstract: The localization of HSP90 (heat-shock protein 90) was analyzed with respect to the microtubular cytoskeleton by double immunofluorescence and confocal laser microscopy in tobacco VBI-O cells during axial cell division and elongation HSP90 was observed to be colocalized with cortical and radial microtubules and the nuclear envelope in premitotic cells, with the preprophase band, and with the phragmoplast The HSP90 epitope could not be detected in mature division spindles The association of the HSP90 epitope with radial and cortical microtubules was not continuous in space HSP90 was organized in discrete foci that were found to be aligned with microtubules, and the distance between these foci increased, when the cells entered the elongation phase Elimination of microtubules by drugs resulted in a loss of cell axiality and alignment of the HSP90 epitope Together with biochemical data demonstrating binding of tobacco HSP90 to tubulin dimers these data indicate a possible role of HSP90 in the organization of microtubules

Induction of nitrate reductase, nitrite reductase, and glutamine synthetase isoforms in sunflower cotyledons as affected by nitrate, light, and plastid integrity

Abstract: We investigated the inducibility of nitrate reductase (NR; EC 1.6.6.1), nitrite reductase (NiR; EC 1.7.7.1), and glutamine synthetase (GS; EC 6.3.1.2) isoforms in cotyledons of 7-day-old seedlings of sunflower (Helianthus annuus L.) in relation to light, nitrogen source (NO 3 − , NO 2 − or NH 4 + ), and the involvement of plastids. Nitrate was absolutely (and specifically) required for NR induction, and stimulated more effectively than NO 2 − or NH 4 + the synthesis of NiR and chloroplastic GS (GS2) over the constitutive levels present in N-free-grown seedlings. In vivo inhibition of NR activity by tungsten application to seedlings and measurements of tissue NO 3 − concentration indicate that NO 3 − -dependent enzyme induction is elicited by NO 3 − per se and not by a product of its assimilatory reduction, e.g., NO 2 − or NH 4 + . In the presence of NO 3 − , light remarkably enhanced the appearance of NR, NiR, and GS2, while the activity of the cytosolic GS isoform (GS1) was adversely affected. Cycloheximide suppressed much more efficiently than chloramphenicol the light- and NO 3 − -dependent increase of GS2 activity, indicating that sunflower chloroplastic GS is synthesized on cytoplasmic 80S ribosomes. When the plastids were damaged by photooxidation in cotyledons made carotenoid-free by application of norflurazon, the positive action of light and NO 3 − on the appearance of NR, NiR, and GS2 isoform was greatly abolished. Therefore, it is suggested that intact chloroplasts are required for the inductive effect of light and NO 3 − and/or for the accumulation of newly formed enzymes in the organelle.

Cytokinesis and nodal anatomy in the charophycean green alga Chara zeylanica

Abstract: Cell plate formation in Chara zeylanica was compared with recent models of cytokinesis in higher plants in order to gain insight into the evolutionary origin of plant cytokinetic processes. Transmission electron microscopy (TEM) reveals that while cytokinesis in C. zeylanica bears many features in common with that in higher plants, there are significant differences. Unlike that in higher plants, cytokinesis in C. zeylanica begins with a congregation of smooth membrane tubules that are closely associated with endoplasmic reticulum (ER) and Golgi membranes. Mitochondria and other organelles excluded by the phragmoplast in higher plants are present as well. Unlike in higher plants, phragmoplast microtubules persist throughout cytokinesis in C. zeylanica, and the cell plate generally forms across the whole cell at once, though development is patchy, due to small regions developing at different rates; the ends of the plate form last. By identifying aspects of cytokinesis that are different in C. zeylanica and plants, our study indicates which cytokinetic features are more likely to be derived, and which are more likely to be ancestral. In addition, we demonstrated that all nodal cells of C. zeylanica are interconnected via plasmodesmata, lending support to the idea that, while Chara spp. are generally considered to be filamentous organisms, nodal regions may be thought of as meristemlike tissues.