Structural and chemical study of callus formation from leaves of <Emphasis Type="Italic">Rubia tinctorum</Emphasis>

Dedifferentiation was monitored in Rubia tinctorum L. leaves over a 14-d period after callus induction using transmission electron microscope (TEM), high performance liquid chromatography (HPLC), spectroscopy and thin layer chromatography (TLC). Photosynthetic pigment loss of leaves took 3–5 d coinciding with the first period of anthraquinone accumulation. Callus cells were discernible in the region of the vascular bundles and wounded edges of leaves after 10–14 d. Characteristic ultrastructural alterations were manifested in vacuolization, appearance of mitochondria, amount of smooth endoplasmatic reticulum and cytoplasm, caryolympha density of nuclei and cytoplasm content of cells. There were special events in the transfer cells: unequal divisions of dedifferentiated plastids and lytic activity in the cell wall. Our results show that mesophyll cells seem to be stopped at a particular level of dedifferentiation, while transfer cells embodied in veins of leaves pass through further alterations and lead to callus formation. Findings suggest that a sort of dedifferentiation drift manifests in the various cells of R. tinctorum leaves during callus induction and depending on their specialized status they achieve different levels of dedifferentiation. Approximately 4 weeks after callus induction, root growth has started from the young calli.     

Leaf litter quality and decomposition rates of yellow birch and sugar maple seedlings grown in mono-culture and mixed-culture pots at three soil fertility levels

Seedlings of yellow birch (Betula alleghaniensis Britton) and sugar maple (Acer saccharum Marsh.) were grown for 2 years in mono-culture and mixed-culture and at three fertility levels. Following the second growing season, senescent leaves were analysed for N concentration, acid hydrolysable substances (AHS), and nonhydrolysable remains (NHR). A litter sub-sample was then inoculated with indigenous soil microflora, incubated 14 weeks, and mass loss was measured. Litter-N was significantly higher at medium than at poor fertility, as well as in yellow birch than in sugar maple litter. The species effect on litter-N increased with increasing fertility. At medium fertility, litter-N of sugar maple litter was lower in mixed-culture than in mono-culture. AHS, NHR as well the NHR/N ratio were significantly higher in yellow birch than in sugar maple litter. At medium fertility, the NHR/N ratio of sugar maple litter was significantly lower in mono-culture than in mixed-culture. Mass loss was significantly greater at medium and rich fertility than at poor fertility, and in yellow birch than in sugar maple litter. At poor fertility, mixed-litter decomposed at a rate comparable to yellow birch, whereas at medium and rich fertility, mixed-litter decomposed at a rate comparable to sugar maple. There was a significant positive relationship between litter-N and mass loss. A similar positive relationship between NHR and mass loss was presumed to be a species effect on decomposition. Results support the hypothesis that species × fertility and species × mixture interactions can be important determinants of litter quality and, by implication, of site nutrient cycling.     

Variations in the structure of neutral sugar chains in the pectic polysaccharides of morphologically different carrot calli and correlations with the size of cell clusters

Carrot (Daucus carota L.) embryogenic callus (EC) loses its embryogenic competence and becomes nonembryogenic callus (NC) during long-term culture. With the loss of embryogenic competence, the cell clusters become smaller and the extent of intercellular attachments is reduced. Pectic fractions prepared from EC and NC were separated into two subfractions by gel filtration. A difference in sugar composition between EC and NC was found only in the high-molecular-mass (ca. 1300 kDa) subfraction, and the ratio of the amount of arabinose to that of galactose (Ara/Gal) was strongly and positively correlated with the size of cell clusters in several different cultures. From the results of sugar-composition and methylation analyses, and the results of treatment with exo-arabinanase, models of the neutral sugar chains of pectins from EC and NC are proposed. Both neutral sugar chains are composed of three regions. The basal region is composed of linearly linked arabinan 5-Ara_f> moieties in both types of callus. The middle galactan region is composed of 6-linked galactose, some of which branches at the 3 and 4 positions, and this region is larger and more frequently branched in NC than in EC. Finally, the terminal arabinan region is composed of 5-linked arabinose, branched at the 3 position, and the size of the terminal arabinan is larger in EC than in NC. The significance of the neutral sugar chains of pectins in the interaction of cell wall components and intercellular attachment is discussed.Abbreviations Ara/Gal ratio (w/w) of the amount of arabinose to that of galactose - EC embryogenic callus - NC non-embryogenic callus - T-Ara_f terminal arabinose The authors are grateful to Dr. Naoto Shibuya of the National Institute of Agrobiological Resources for his gift of exo-arabinanase.     

比格犬卵巢子宫内雌激素受体ERα、ERβ的免疫组织化学定位

目的研究雌激素受体α,β在比格犬卵巢及子宫内的定位。方法采用免疫组化SP法DAB显色结合BCIP/NBT及AEC显色检测ERα、ERβ在比格犬子宫及卵巢内的表达。结果比格犬ERα主要表达于卵泡颗粒细胞、卵巢间质腺腺上皮细胞及子宫内膜腺体腺上皮细胞胞核内,胞质内仅有少量表达,而在卵泡膜内膜的间质细胞,腺体周围的基质细胞及小动脉血管内皮细胞和平滑肌细胞、小静脉内皮细胞的胞核内有少量表达。而ERβ则以相同的组织特异性主要表达于上述组织细胞的胞质内,在胞核内有微弱表达。ERα表达于膜黄体细胞的胞核内,而在黄体颗粒细胞胞核与胞质内均有表达。而ERβ则仍特异表达于不同生理阶段黄体细胞的胞质内。BCIP/NBT与AEC双染未见ERα、ERβ在子宫内有明显的共表达现象。结论比格犬ERα、ERβ在子宫与卵巢组织内定位不同,ERα主要定位于胞核,在胞质内有微弱表达,而ERβ主要定位于胞质,在胞核内有零星表达。     

Norway Maple (Acer platanoides) Invasion of a Natural Forest Stand: Understory Consequence and Regeneration Pattern

Norway maple (Acer platanoidesis) is invasive in a natural stand in suburban Ithaca, NY. To determine the understory pattern and consequences of a Norway maple invasion, I compared density and species richness under Norway maples and sugar maples (Acer saccharum). Mean sapling density was significantly lower (P<0.0027) under Norway maples (3.64/100 m²±1.6 SE) than under sugar maples (19.4/100 m²±4.4 SE). Mean sapling species richness was significantly lower (P<0.0018) under Norway maples (0.7/32 m²±0.18 SE) than under sugar maples (2.6/32 m²±0.48 SE). Likewise, Norway maple regeneration is more frequent under sugar maples than sugar maple regeneration: 57% of sugar maple plots had Norway maple saplings while 0% of Norway maple plots had sugar maple saplings. Two significant plot effects were found for presence–absence: Norway maple saplings grow under Norway maples with a significantly lower frequency (P<0.03) than under sugar maples; sugar maple saplings grow under Norway maples with a significantly lower frequency (P<0.000) than under sugar maples. Across the site, Norway maple saplings were the most abundant (29 saplings for 480 m²). The success of Norway maple regeneration and the reductions in total stem density beneath Norway maples is most likely the result of its strong competitive abilities, notably its high shade tolerance and abundant seed crops.     

The histogenesis of somaclones from tomato (Lycopersicon esculentum Mill.) cotyledons

Summary A histological study ofin vitro cultured cotyledonary expiants of tomato (Lycopersicon esculentum) was performed in order to determine the site (differentiated tissue or developing callus) and the mode of plant regeneration.Results have shown that callus develops at the excision sites of cotyledonary expiants and that shoots are formed exclusively within the unorganized callus: excision areas are the only morphogenetic sites and the proximal excision is the preferred site for plant regeneration.Shoots differentiate by organogenesis within the superficial region of the callus. Few neocambial cells cooperate in the neoformation. Origin from a single cell is highly unlikely since rarely observed single activated cells never developed into shoots.Regenerated plants may be chimeras if invitro culture induces genetic diversity in the initial cells.Abbreviations IAA Indole-3-acetic acid - c callus - d vegetative dome - s shoot - ad adaxial - ab abaxial - t tracheid - p parenchyma - S sieve tube     

Reactive oxygen species in programmed death of pea guard cells

Hydrogen peroxide potentiates CN(-)-induced apoptosis of guard cells recorded as destruction of cell nuclei in the epidermis from pea leaves. A still stronger effect was exerted by the addition of H2O2 and NADH, which are the substrates of the plant cell wall peroxidase producing O2*- coupled to the oxidation of NADH. The CN(-)-or (CN(-) + H2O2)-induced destruction of guard cell nuclei was completely removed by nitroblue tetrazolium (NBT) oxidizing O2*- and preventing there-by the subsequent generation of H2O2. The reduced NBT was deposited in the cells as formazan crystals. Cyanide-induced apoptosis was diminished by mannitol and ethanol, which are OH* traps. The dyes Rose Bengal (RB) and tetramethylrhodamine ethyl ester (TMRE) photosensitizing singlet oxygen production suppressed the CN(-)-induced destruction of the cell nuclei in the light. This suppression was removed by exogenous NADH, which reacts with 1O2 yielding O2*-. Incubation of leaf slices with RB in the light lowered the photosynthetic O2 evolution rate and induced the permeability of guard cells for propidium iodide, which cannot pass across intact membranes. Inhibition of photosynthetic O2 evolution by 3-(3',4'-dichlorophenyl)-1,1-dimethylurea or bromoxynil prevented CN(-)-induced apoptosis of guard cells in the light but not in the dark. RB in combination with exogenous NADH caused H2O2 production that was sensitive to NBT and estimated from dichlorofluorescein (DCF) fluorescence. Data on NBT reduction and DCF and TMRE fluorescence obtained using a confocal microscope and data on the NADH-dependent H2O2 production are indicative of generation of reactive oxygen species in the chloroplasts, mitochondria, and nuclear region of guard cells as well as with participation of apoplastic peroxidase. Cyanide inhibited generation of reactive oxygen species in mitochondria and induced their generation in chloroplasts. The results show that H2O2, OH*, and O2*- resources utilized for H2O2 production are involved in apoptosis of guard cells. It is likely that singlet oxygen generated by RB in the light, judging from the permeability of the plasmatic membrane for propidium iodide, makes Photosystem II of chloroplasts inoperative and induces necrosis of the guard cells.     

Cellular behavior in embryogenic and non-embryogenic sugar beet calluses

Summary The present study diseusses the results of cytological studies of two kinds of sugar beet callus, i.e., embryogenic and non-embryogenic tissues. The calluses were produced through culture of secondary leaves on Murashige and Skoog medium containing two hormone combinations. One week after transfer of calluses onto fresh medium, their cells were viewed using electron microscopy and an image analyzer. Observations showed that cells of the two callus types had considerable differences in cell structure and various organelles. Of note were the high amount of polyploidization, rough endoplasmic reticulum, polysome, poly-nucleolus, and incomplete cell wall together with abnormal partitioning in non-embryogenic cells, as compared to embryogenic cells. In contrast, vacuolation of cytoplasm, perfect cell wall and partitioning structure, and the high proportion of nucleus/cytoplasm area were recognized in embryogenic cells.     

Ultrastructural study of different types of callus from leaf expiants ofAesculus hippocastanum L.

Summary The cell ultrastructure in three types of callus obtained from leaf explants ofAesculus hippocastanum L. has been studied. Remarkable differences have been shown between the cells of the forerunner E₁ callus and those of the callus arising from it, according to the culture conditions.The peculiar characteristics of E₁ are the scarcity of intercellular spaces and the occurrence of autophagic vacuoles in the cells.An embryogenic friable callus (E₂) is formed in time when E₁ is maintained on solid culture medium. The E₂ cells show cytological features typical of a higher metabolic level and contain starch. Diffused middle lamella digestion leads to the detachment of small embryogenic cell aggregates consisting of vacuolated parenchymatous-like cells and small meristematic cells which may be regarded as embryoids initials.Shaking E₁ in the same liquid medium and subsequent culture on solid medium lead to the differentiation of a non-embryogenic callus (NE), whose cells are very large and highly vacuolated, devoid of starch and with organelle-rich cytoplasm. The NE callus shows a high degree of growth, but does not attain embryogenic competence in time.Abbreviations c cell - cr crystal - cw cell wall - d dictyosome - er endoplasmic reticulum - m mitochondrion - mb microbody - n nucleus - p plastid - s starch - v vacuole     

Tree Species Effects on Calcium Cycling: The Role of Calcium Uptake in Deep Soils

Soil acidity and calcium (Ca) availability in the surface soil differ substantially beneath sugar maple (Acer saccharum) and eastern hemlock (Tsuga canadensis) trees in a mixed forest in northwestern Connecticut. We determined the effect of pumping of Ca from deep soil (rooting zone below 20-cm mineral soil) to explain the higher available Ca content in the surface soil beneath sugar maple. We measured the atmospheric input of Ca with bulk deposition collectors and estimated Ca weathering and Ca mineralization in the surface soil (rooting zone above 20-cm mineral soil) from strontium isotope measurements and observed changes in exchangeable Ca in soils during field incubation. Calcium leaching at 20 cm was calculated by combining modeled hydrology with measured Ca soil solution concentrations at 20-cm depth. We measured root length distribution with depth beneath both tree species. Calcium leaching from the surface soil was much higher beneath sugar maple than hemlock and was positively related with the amount of Ca available in the surface soil. Calcium leaching from the surface soil beneath sugar maple was higher than the combined Ca input from atmospheric deposition and soil weathering. Without Ca uptake in the deep soil, surface soils are being depleted in Ca, especially beneath sugar maple. More organically bound Ca was mineralized beneath sugar maple than beneath hemlock. A relatively small part of this Ca release was leached below the surface soil, suggesting that, beneath both tree species, most of the Ca cycling is occurring in the surface soil. Sugar maple had more fine roots in the deep soil than hemlock and a greater potential to absorb Ca in the deep soil. With a simple model, we showed that a relatively small amount of Ca uptake in the deep soil beneath sugar maple is able to sustain high amounts of available Ca in the surface soil. Received 20 June 2001; accepted 6 December 2001.     

Organization of the cytoskeleton in early Drosophila embryos

The cytoskeleton of early, non-cellularized Drosophila embryos has been examined by indirect immunofluorescence techniques, using whole mounts to visualize the cortical cytoplasm and sections to visualize the interior. Before the completion of outward nuclear migration at nuclear cycle 10, both actin filaments and microtubules are concentrated in a uniform surface layer a few micrometers deep, while a network of microtubules surrounds each of the nuclei in the embryo interior. These two filament-rich regions in the early embryo correspond to special regions of cytoplasm that tend to exclude cytoplasmic particles in light micrographs of histological sections. After the nuclei in the interior migrate to the cell surface and form the syncytial blastoderm, each nucleus is seen to be surrounded by its own domain of filament-rich cytoplasm, into which the cytoskeletal proteins of the original surface layer have presumably been incorporated. At interphase, the microtubules seem to be organized from the centrosome directly above each nucleus, extending to a depth of at least 40 microns throughout the cortical region of cytoplasm (the periplasm). During this stage of the cell cycle, there is also an actin "cap" underlying the plasma membrane immediately above each nucleus. As each nucleus enters mitosis, the centrosome splits and the microtubules are rearranged to form a mitotic spindle. The actin underlying the plasma membrane spreads out, and closely spaced adjacent spindles become separated by transient membrane furrows that are associated with a continuous actin filament-rich layer. Thus, each nucleus in the syncytial blastoderm is surrounded by its own individualized region of the cytoplasm, despite the fact that it shares a single cytoplasmic compartment with thousands of other nuclei.     

A novel regeneration system for a wild passion fruit species (<Emphasis Type="Italic">Passiflora cincinnata</Emphasis> Mast.) based on somatic embryogenesis from mature zygotic embryos

The objective of the present work was to induce somatic embryogenesis from zygotic embryos of Passiflora cincinnata Masters. Zygotic embryos formed calli on media with different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.5 μM benzyladenine (BA) after 30 days of in vitro culture. A concentration of 18.1 μM 2,4-D resulted in the largest number of somatic embryos. Embryogenic calli were yellowish and friable, forming whitish proembryogenic masses. Morphologically, embryogenic cells were small and had large nuclei and dense cytoplasm, whereas non-embryogenic cells were elongated, with small nuclei and less dense cytoplasm. Calli cultured under white light on basal Murashige and Skoog’s medium with activated charcoal produced embryos in all developmental stages. There were differences among the treatments, with some leading to the production of calli with embryos and some only to callus formation. Some abnormalities were associated with somatic embryos, including fused axes, fused cotyledons and polycotyledonary embryos. Production of secondary somatic embryos occurred in the first cycle of primary embryo development. Secondary embryos differentiated from the surface of the protodermal layer of primary embryos with intense cell proliferation, successive mitotic divisions in the initial phase of embryoid development, and a vascular system formed with no connection to the parental tissue. This secondary embryogenic system of P. cincinnata is characterized by intense proliferation and maintenance of embryogenic competence after successive subcultures. This reproducible protocol opens new prospects for massive propagation and is an alternative to the current organogenesis-based transformation protocol.     

Localization of mannose- and galactose-binding lectins in an effective peanut nodule

Summary Mannose/glucose- and galactose-binding lectins (ML and GL respectively, were located by immunogold labelling in tissues of a peanut (Arachis hypogaea) nodule induced by an effectiveBradyrhizobium sp. strain. Light and electron microscopic examination of silver-enhanced semithin and ultrathin sections, respectively, revealed that both lectins were widely distributed throughout the cortex and bacteroidal zones although ML was more abundant. The lectins were predominantly in the vacuoles of cortical cells but GL was absent from, or at low concentration in, a two-cell-thick layer of cortical cells surrounding the bacteroidal region. Only ML was detected in cells of the vascular bundle endodermis and in central vascular bundle cells; neither lectin was found in pericycle cells. Bacteroidal cells contained abundant ML in the nuclei and cytoplasm surrounding bacteroids while GL was mainly located in the central vacuoles of these cells. Neither lectin was associated with bacteroid surfaces, peribacteroid membranes, plant cell walls or cell organelles and membranes. The above observations indicate that the nodule lectins are not symbiotic cell recognition determinants and suggest that they have protein storage functions.Abbreviations BSA bovine serum albumin - GL galactose-binding lectin - ML mannose-binding lectin - PBS phosphate-buffered saline - PBST phosphate-buffered saline plus Tween     

Dorsal-ventral differentiation in Simonsiella and other aspects of its morphology and ultrastructure

The morphology and ultrastructure of the aerobic, Gram-negative multicellular-filamentous bacteria of the genus Simonsiella were investigated by scanning and transmission electron microscopy. The flat, ribbon-shaped, multicellular filaments show dorsal-ventral differentiation with respect to their orientations to solid substrata. The dorsal surface, orientated away from the substrate, is convex and possesses an unstructured capsule. The ventral surface, on which the organisms adhere and glide, is concave and has an extracellular layer with fibrils extending at right angles from the cell wall. The cytoplasm in the ventral region contains a proliferation of intracytoplasmic membranes and few ribosomes in comparison to the cytoplasm in other parts of the cell. Centripetal cell wall formation is asymmetrical and commences preferentially in the ventral region. Quantitative differences in morphology and cytology exist among selected Simonsiella strains. Functional aspects of this dorsalventral differentiation are discussed with respect to the colonization and adherence of Simonsiella to mucosal squamous epithelial cells in its ecological habitat, the oral cavities of warm-blooded vertebrates.List of Abbreviations SEM scanning electron microscope - TEM transmission electron microscope     

In vitro culture ofBellevalia romana (L.) Rchb.

Summary Bellevalia romana (L.) Rchb., a monocotyledonous plant characterized by few (2 n=2 x=8) and very large chromosomes, is a useful subject for studying developmental problemsin vitro. Cytological analysis of callus revealed that the majority of cells were diploid, but the remaining cells had aneuploid nuclei with a wide range of chromosome numbers, tetraploid and haploid nuclei. The frequency of aneuploid and polyploid cells was higher in callus grown in the presence of 2,4-D than in callus grown in NAA plus BAP. These nuclei seemed to increase with the duration of culture. The chromosome number distribution as determined by chromosome counts in calli at different culture times was confirmed by DNA cytophotometry. Chromosome number mosaicism (mixoploidy and aneusomaty) also occurred in all root apices of 9 out of 46 plantlets regenerated from callusvia adventitious shoots.     

A xylogalacturonan whose level is dependent on the size of cell clusters is present in the pectin from cultured carrot cells

A substantial level of xylose was detected in the pectic polysaccharides that had been extracted from carrot (Daucus carota L.) calli and purified by gel-permeation and ion-exchange chromatography. The results of the removal of neutral sugar chains and -elimination indicated that the xylose was not included in the neutral sugar chains but was directly bound to a polygalac-turonic-acid backbone. Methylation analysis confirmed that the xylose was directly linked to galacturonic acid at position 2 or 3, as a terminal residue. The amount of xylose was positively correlated with the size of cell clusters in several lines of cultured carrot cells.Abbreviations EC embryogenic callus - 4-GalA 4-linked galacturonic acid - NC non-embryogenic callus - T-Xyl terminal xylose - 3,4-GalA 3,4-linked galacturonic acid - 2,4-GalA 2,4-linked galacturonic acid Part of this work was supported by a research grant from the Science and Technology Agency of Japan and a Grand-in-Aid from the Ministry of Education, Science and Culture, Japan. The authors are grateful to Dr. Koichi Kakegawa of the Forestry and Forest Products Research Institute for his encouragement throughout this research.     

Studies of Ultrastructure and ATPase Localization of Mature Embryo Sac in Vicia faba L.

Studies of ultrastructure and ATPase localization of the mature embryo sac in Vicia faba L. show that the egg cell has no cell wall at thechalazal end, it has a chalazally located nucleus and a large micropylar vacuole. There are many nuclear pores in the nuclear membrane. The cytoplasm is restricted around the nucleus. Dictyosome and mitochondria are few. There are some starch grains and lipid grains in the egg cytoplasm. There are no obvious differences between two synergids. No cell wall is seen at the chalazal end either, but there are some vesicles which project to vacuole of the central cell and fuse with its vacuolar membrane. Plasmodesmata connections occur within the synergid wall where it is adjacent to the central cell. The synergid has a micropylarly located nucleus and a chalazal vacuole, the nucleus is irregularly shaped. The synergid cytoplasm is rich in organelles. The filiform aparatus is of relatively heterogeneous structure. The central cell is occupied by a large vacuole and its cytoplasm is confined to a thin layer along the empryo sac wall, but is rich in various organelles, starch grains and lipid bodies. Nucleolar vacuoles are often present two polar nuclei. The nuclear membranes of two polar nuclei have partly fused. ATPase reactive product was located obviously at the endoplasmic reticulum in cytoplasm of the egg cell and central cell. The embryo sac wall consists of different density of osmiophilic layer. There are some wall ingrowths in chalazal region of the embryo sac. The long-shaped and cuneate cells of chalazal region are peculiar. Special tracks of ATPase reactive products are visible at their intercellular space which may be related to transportation of nutrients.     

Changes of the cytoplasmic ultrastructure during development of sclerotia in Claviceps purpurea (Fr.) Tul.

The development of sclerotia of Claviceps purpurea was investigated by light and electron microscopy. During the first days after infection sterigma and conidiospores are formed. The spores show a moderately developed vacuolar system, they are thick walled and contain about 20% lipid (related to the cell volume) embedded in glycogen. The sterigma are cylindrical unicellular hyphae with electron dense cytoplasm and isolated strongly contrasted lipid droplets. In maturing sclerotia the hyphae become septated with increasingly thick cell walls and a large lipid content. The lipid forms small droplets in young cells, while in the mature sclerotium it occurs in the form of very large drops, occupying the major part of the cell. Simultaneously the composition of the lipid is changed. The mature cells have several nuclei. They are partially connected by osmiophilic substances, forming a network of intercellular spaces.Abbreviations HEPES N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid - DMSO Dimethylsulfoxide     

The distribution of nuclear and cytoplasmic proteins in the blastoderm of the loach, Misgurnus fossilis L

The concentration of dry substance (protein) and the dry weight of nuclei, cytoplasm and cells from different blastoderm regions at the early blastula and midgastrula stages were determined by interferentional microscopy. It was shown that at the early blastula stage the dry weight of cells in the basal layer is higher than that in the outer layer. Although the protein concentration in the basal layer cells appears to be somewhat higher, differences in their dry weight are due primarily to the big volume of cytoplasm of the basal layer cells. By the midgastrula stage, the total (nucleus + cytoplasm) protein concentration increases (by 17% in the basal layer cells and by 9% in the outer layer cells) due to the increase of nuclear protein concentration. At the same time dry weight of these cells markedly decreases due to the decrease of their volumes in the process of cell divisions. At the midgastrula stage the epiblast cells have the highest dry weight due to the highest protein concentration in the cytoplasm and the biggest cell volume. The results obtained are discussed with respect to the data on the pattern of accumulation of newly synthesized protein in nuclei and cytoplasm with special reference to the duration of individual cell cycle phases.     

Immunocytochemical localisation of auxin-binding proteins in coleoptiles and embryos ofZea mays L.

Summary The auxin-binding protein ABP-1 was localised immunocytochemically in coleoptiles and immature embryos ofZea mays. Two primary polyclonal antibodies raised against ABP-1 and secondary antibodies were either labelled with FITC or 10 nm gold particles for light microscopy, and with 10 nm gold particles for transmission electron microscopy. Light microscopy revealed that ABP-1 was localised in the epidermal cells of etiolated maize coleoptiles, in subepidermal parenchymatic mesophyll cells of the coleoptile and in the companion cells of the vascular bundles. Most labelling was found in the cytoplasm, less in nuclei and vacuoles and cell walls appeared negative. The region of the plasma membrane exhibited prominent labelling. Embryos showed low labelling throughout their tissues just after excision, but after culture for 7 days intensive labelling was found in the epidermis of the scutellum. Quantitative electron microscopy confirmed that ABP-1 was present in the cytoplasm of epidermal, mesophyll, and companion cells of coleoptiles. Gold particles were neither found in cell walls nor in the cuticle. Areas with ER and dictyosomes within epidermal and mesophyll cells of coleoptiles had a denser labelling with gold particles than elsewhere. Labelling at the plasma membrane, being the site where the auxin binds to the ABP, was observed at low levels in all cells examined, which is due to the method applied. Epidermal cells of embryos cultured for 5 days exhibited high levels of gold particles in ER and nuclei, and lower levels in the cytoplasm. The distribution is only partly in accordance with the model in which ABP is thought to cycle through the plant cell from the ER via the Golgi system towards the plasma membrane.Abbreviations ABP-1 auxin-binding protein 1 - BSA bovine serum albumin - 2,4-D 2,4-dichlorophenoxyacetic acid - EM electron microscopy - LM light microscopy - LR Write London resin white - PBS phosphate-buffered saline - PEG polyethylene glycol - TEM transmission electron microscopy