Early Events in the Penetration of the Embryo Sac in Torenia fournieri(Lind.)

At maturity, Torenia fournieri(Lind.) has an embryo sac whichprotrudes through the micropyle placing the synergids, egg celland part of the central cell within the ovary locule adjacentto the placenta. The present study utilized this unique attributein combination with confocal and light microscopy to characterizethe timing and associated structural changes during pollinationevents leading to double fertilization. The observation of spermnuclei in living gametophyte tissue is an important advancein the identification, in real time, of stages leading to fertilizationin angiosperms. A continuum of fertilization occurred between12 and 16 h after pollination (hap), with peak frequency ofegg and sperm fusion at 14 hap (43%). Movement of the spermcells through the degenerated synergid took several hours andfusion between sperm and their respective female nuclei occurredsimultaneously. Changes in embryo sac structure were also documented.Cell walls in the region between the synergids and egg cellwere poorly developed prior to pollen tube penetration. Thickenedcell walls were observed around the periphery of the synergidsand egg cell following pollination, and in the central cellwhere it lay within the body of the ovule. Starch was observedin the cells of the embryo sac, although the number and distributionof granules varied before and after pollination. These temporaland spatial observations of the embryo sac inTorenia fournieriprovide a basis for further research to determine control mechanismsoperating during specific double fertilization events in angiosperms.Copyright 2000 Annals of Botany Company Double fertilization, embryo sac, sperm nuclei, Hoechst, Torenia fournieri     

Callose in the walls of mature embryo sac ofTorenia fournieri

Summary During the course of a fluorescence microscopic investigation on the extra-ovular micropylar portion of the embryo sacs ofTorenia fournieri Lind. (Scrophulariaceae) a callosic wall was found which surrounded it almost completely until the time of anthesis. In addition, the walls of young synergids and the filiform apparatus also showed callosic fluorescence. Treatments with PAS reaction revealed a PAS-positive substance filling up the locular cavity. Our attempts to induce fluorochromasia by employing fluorescein diacetate failed, indicating the low permeability of the callosic wall around the embryo sac. It is assumed that the callose wall around the embryo sac isolates the latter from the contents of the locular cavity whereas the callose in the synergid walls may represent an intermediate stage in the maturation of these walls; the filiform apparatus is mainly composed of callose.     

A Transgene Locus is Required for Wavy-patterned Flowers of Transgenic Torenia Plants

Modification of flower colour in torenia (Torenia fournieriLind.) by reintroduction of the chalcone synthase (CHS) or dihydroflavonol-4-reductasegenes has been reported (Aida et al., 2000.Plant Science153:33–42). The typical modified phenotype among plants withan introduced antisense gene is a uniformly lighter-colouredcorolla. Of the 67 plants in which an antisense CHS gene wasintroduced, only a single line (411-7) showed a wavy patternon the flower lip. In flowers of this plant, the inner partof the corolla lip was pigmented more deeply than the outerpart in a wave-like pattern—a pattern that does not existin normal cultivars. The segregation ratio of the flower colourpatterns of the offspring and Southern blot analysis demonstratedthat one of the two transgene loci detected may cause the wavyphenotype; the other locus is never associated with the wavyphenotype but alone it could produce the typical antisense typepattern. Copyright 2001 Annals of Botany Company Torenia fournieri Lind., transformation, flower colour, ornamental plants, pigmentation pattern     

Effects of Wounding on Adventitious Bud Formation in Torenia Stem Segments Cultured In Vitro

In in vitro cultured stem segments of Torenia fournieri Lind.,the formation of adventitious buds can be induced when the culturemedium contains cytokinin. When long stem segments (2.0 cm ormore) were cultured with cytokinin, a large number of buds wereformed in the marginal regions, namely, within the limits of0.5 cm from the cut ends of explants, while only a few budswere initiated in the middle part of the explants. If a slightinjury was made transversely with a scalpel in the central partof an explant, a significant increase in the number of budswas noted within the limits of 0.5 cm from the wound site. Whena wounding treatment was given lengthwise to an explant, a largenumber of adventitious buds were formed over the entire surfaceof the explant compared to the control. Excision itself of explantsfrom mother plants and the additional wounding given to theexplants seemed to trigger the induction of adventitious buddifferentiation in Torenia stem segments. These wounding treatmentsdid not affect the uptake into explants and/or the distributionpattern of radioactive benzyladenine applied to the culturemedium. Key words: Torenia fournieri, Adventitious bud formation, Cytokinin, Wounding     

Inter-Tissue Correlations in Organ Fragments: Organogenetic Capacity of Tissues Excised from Stem Segments of Torenia fournieri Lind Cultured Separately in Vitro

In order to study the effect of inter-tissue correlations on the organogenetic capacities of various tissues of stem segments of Torenia fournieri Lind, different types of explants were excised and grown separately: epidermis, subepidermal parenchyma, epidermis plus subepidermal parenchyma but devoid of vascular tissue and stem segments devoid of epidermis.     

Significance of Spermidine in the Initiation of Adventitious Buds in Stem Segments of Torenia

When stem segments of Torenia fournieri Lind. were culturedin vitro, the initiation of adventitious buds, which is usuallyinduced by cytokinin, was induced by application of polyamines,such as putrescine and spermidine. Addition of arginine hada slight inductive effect. When cyclohexylamine, an inhibitorof spermidine synthase, was added simultaneously with putrescine,induction of the initiation of buds by putrescine was stronglyinhibited. However, application of the inhibitor together withspermidine had no effect on the spermidine-induced initiationof buds. The induction of initiation of buds by a cytokinin,by a calcium ionophore, by cyclic AMP, and by a phorbol ester,which was accompanied in each case by elevation of the levelsof endogenous spermidine, was also inhibited by cyclohexylamine.These results suggest the involvement of spermidine in the initiationof adventitious buds in stem segments of Torenia. ²Present address: Radiation Effects Research Foundation, Hijiyamakouen5-2, Minami-ku, Hiroshima, 732 Japan.     

Chemical Factors Controlling Floral Bud Formation of Torenia Stem Segments Cultured in Vitro I. Effects of Mineral Nutrients and Sugars

Internodal segments of Torenia fournieri Lind. were culturedon various media to investigate chemical factors influencingin vitro flowering. The elimination or dilution of ammoniumnitrate from Murashige and Skoog's medium increased the formationof adventitious buds which subsequently differentiated floralbuds. The dilution of mineral salts in Murashige and Skoog'smedium enhanced adventitious bud formation, but did not influencethe ratio of cultures with floral buds to those with adventitiousbuds. Among various media tested, in vitro floral bud formationand development of Torenia was best on a medium having 1/5 ofthe mineral salts and no NH₄NO₃. Eighty-seven percent of thecultures produced floral buds on this medium. Using this medium,the effects of various sugars were also examined. Increasingthe concentration of sucrose in the medium (up to 60 g/liter)increased the rate of cultures with floral buds, and stimulatedthe development of floral buds led to anthesis. (Received January 17, 1981; Accepted February 21, 1981)     

Influence of Several Growth Regulators and Amino Acids on in vitro Organogenesis of Torenia fournieri Lind.

The effects of several growth regulators and amino acids onin vitro organogenesis of Torenia fournieri Lind. were determinedusing internodal segments. Treatment with 2,4-D¹ resulted innodular callus formation, while NAA and IAA induced roots constantlybut much less frequently shoot buds. Individually BA, zeatin,and 4-PU induced bud formation, but these shoot buds did notdevelop further. Formation of buds by cytokinin was influencedby a simultaneous application of NAA or 2,4-D, but not of IAA,its degree being reduced when BA was simultaneously appliedwith NAA or 2,4-D. When zeatin or kinetin was added with NAA,numerous roots were induced. The effects of various L-amino acids on in vitro organogenesiswere also investigated using the defined medium in which KNO₃was a principal source of nitrogen. The formation of buds wasconsiderably stimulated by alanine and asparagine, and slightlyby glutamic acid in the medium containing both NAA and BA, inwhich bud formation was easily induced. On the other hand, allamino acids except for glutamic acid and aspartic acid inhibitedroom formation in this medium. Root formation was greatly stimulated by proline, alanine, glutamine,glutamic acid, and aspartic acid, and slightly by arginine andtryptophan in the medium containing NAA but no BA. Glutamicacid and aspartic acid also enhanced bud formation in this medium.     

Isolation of protoplasts from female gametophytes of Torenia fournieri

Protoplasts from the cells of mature embryo sacs (ES-protoplasts) of Torenia fournieri were obtained during incubation of ovules in an enzyme solution. Four protoplasts which arose from each embryo sac were connected together after isolation, or aggregates of the egg cell protoplast and two synergide protoplasts dissociated from the protoplast of the central cell. The ES-protoplasts stayed viable for 2 weeks in culture, but they did not regenerate cell walls.Abbreviations ES embryo sac - FAA fixative (formalin : acetic acid : alcohol = 1 : 1 : 18) - FDA fluorescein diacetate - PAS periodic acid Schiff reaction - 2,4-D 2,4-dichlorophenoxyacetic acid     

Rhizobium-stimulated Callose Formation in Clover Root Hairs and its Relation to Infection

Callose was detected in the cell walls of the tips of growingroot hairs of Trifolium species and the non-legume Phleum pratenseusing u.v. fluorescence of fresh material stained with 0·005%aniline blue. Inoculation of the roots with Rhizobium trifolii,R. leguminosarum, R. meliloti, and R. japonicum, or additionof 10^–7 and 10^–8 M indole-3-acetic acid (IAA) increasedtip callose formation. Most tip callose was formed at 12 °C, and amounts declinedprogressively at 18, 24, and 30 °C, with very little formedat 36 °C. Tip calloso usually became less and disappearedin individual root hairs as they aged. Callose which appeared prominently in the host cell walls atthe points of initiation of infection threads did not usuallydisappear as the hairs matured. There was little or no extensionof callose along the infection thread and none in the threadtip or in the cell nucleus. Presumptive regions of callose hadsimilar structure and electron density as root hair wall materialand were sometimes related to arrays of vesicles in the hostcytoplasm. The external surface of the hair wall bore smallpegs or papillae (0·1–0·2 µm) continuouswith the outer layer of the wall and possibly associated withattachment of bacteria. Bacteria were usually umboriate at thepoint of attachment and their polyphosphate granules were muchlarger near the root hair than at the distal end.     

Changes in mitochondrial DNA levels during early embryogenesis in Torenia fournieri and Arabidopsis thaliana

Changes in the amount of mitochondrial DNA (mtDNA) have never been investigated in plant zygotes or early plant embryos due to the difficulty in isolating these cells, although such changes have been investigated in mammalian embryos. Using the single‐cell quantitative real‐time polymerase chain reaction (PCR) and laser confocal microscopy, we surveyed the changes in mtDNA levels during early embryogenesis in Torenia fournieri and Arabidopsis thaliana. In contrast with the amount of mtDNA in early mammalian embryos, which does not change, we found that mtDNA doubling occurred during zygotic development in T. fournieri and during two‐cell proembryo development in A. thaliana. These findings reveal that mtDNA doubling occurs during early embryogenesis in T. fournieri and A. thaliana, indicating that the dynamics of mtDNA in early plant embryos differs from that in early mammalian embryos.     

Intercellular Correlations: Relation between DNA Synthesis and Cell Division in Early Stages of in Vitro Bud Neoformation

As well as showing the existence, during the first stages of in vitro bud neoformation, of cell populations in a tissue composed of a single cell layer (stem epidermis of Torenia fournieri Lind), some new physiological characteristics of mitosis are defined. Most of the cells which divide during organogenesis synthesize their DNA between 20 and 48 hours of culture. On an epidermal strip (10 × 2.5 millimeters composed of about 5,500 cells) 20% of the original cells enter the S-phase. The first division takes place at the 20-hour stage after the entry into the S-phase of a cell population of about 25 cells. Almost none of the cells of this population divide. The greatest percentage of divisions occurs in cells which synthesize DNA near the 48-hour stage. The relation [Formula: see text] has a value of about 25 at the beginning of cell division (20 hours) and falls to a value of about 1.4 for cells which synthesize DNA near the 48-hour stage. A hypothesis of the existence of a mitotic stimulant in the epidermis is put forward; this stimulant, at first weak, increases progressively.     

Symplastic communication between the central cell and the egg apparatus cells in the embryo sac of Torenia fournieri Lind. before and during fertilization

 Various membrane-impermeable, water-soluble fluorescent tracers with different molecular weights were microinjected into the central cell of the embryo sac of Torenia fournieri Lind. before and during fertilization. Before anthesis, there was high symplastic permeability between the central cell and the egg apparatus cells. In this stage, fluorescent tracers up to 10 kDa could pass from the central cell into the egg apparatus cells, whereas those with larger molecular weight remained in the central cell. As the embryo sac matured, symplastic permeability decreased such that 2 d after anthesis only tracers less than 3 kDa could spread from the central cell into the egg cell. There appeared to be no symplastic permeability between the primary endosperm and zygote after fertilization, since tracers as small as 521 Da could not pass into the zygote in about half of the microinjected embryo sacs. This is the first report of a change in cell-to-cell communication among the cells of the female germ unit before and after fertilization. Received: 16 December 1999 / Accepted: 4 February 2000     

Is The Special Callose Wall of Microsporocytes an Impermeable Barrier?

During the course of cytochemical studies in sugar beet anthers(Beta vulgaris L.) to test the applicability of cerium methodsfor the ultrastructural localization of enzymatic activity inplant tissues, new evidence was obtained that questions theimpermeability of the special callose wall surrounding the tetradof microspores. Cerous ions, added to cytochemical media asa potential capture agent for enzymatically-produced hydrogenperoxide, showed binding to cell walls and plasma membranesexclusively in the zone of mechanical injury to the tissues,which may correspond to sites of hydrogen peroxide formationas a consequence of wounding. The cerium perhydroxide precipitateformed as a result of this reaction was localized within thecell walls of anther tissues, inside the callose surroundingtetrads of microspore and in the primexine layer of the microsporewall. The results of this study provide evidence for callosepermeability in in vivo conditions, for at least some substancessuch as cerous ions or cerium perhydroxide. Key words: Callose, cerous ions/cerium perhydroxide, permeability     

Electrical Coupling, Potentials, and Resistances in Oat Coleoptiles: Effects of Azide and Cyanide

Electrophysiological measurements were made on oat coleoptile(Avena sativa L. cv. Victory) parenchyma cells. Both 1 mM potassiumcyanide and 1 mM sodium azide cause reductions in cell restingpotential and electrical coupling and an increase in the combinedtonoplast and plasmalemma resistance. The reduction in coupling is probably attributable to a decreasein current flow through plasmodesmata, resulting from an increasein plasmodesmatal resistance. Potassium cyanide also induces some callose formation withincell walls and this may contribute to the observed reductionin coupling. However, sodium azide does not induce callose formation.Presumably other processes are involved in the reduction ofcoupling which are not attributable to callose.     

Nuclear DNA replicates during zygote development in Arabidopsis and Torenia fournieri

The progression of the cell cycle is continuous in most cells, but gametes (sperm and egg cells) exhibit an arrest of the cell cycle to await fertilization to form a zygote, which then continues through the subsequent phases to complete cell division. The phase in which gametes of flowering plants arrest has been a matter of debate, since different phases have been reported for the gametes of different species. In this study, we reassessed the phase of cell-cycle arrest in the gametes of two species, Arabidopsis (Arabidopsis thaliana) and Torenia fournieri. We first showed that 4’, 6-diamidino-2-phenylindole staining was not feasible to detect changes in gametic nuclear DNA in T. fournieri. Next, using 5-ethynyl-2’-deoxyuridine (EdU) staining that detects DNA replication by labeling the EdU absorbed by deoxyribonucleic acid, we found that the replication of nuclear DNA did not occur during gamete development but during zygote development, revealing that the gametes of these species have a haploid nuclear DNA content before fertilization. We thus propose that gametes in the G1 phase participate in the fertilization event in Arabidopsis and T. fournieri.

The replication of nuclear DNA does not occur during gamete development but during zygote development.     

Sieve Elements of Minor Veins in the Leaves of Beta vulgaris L.

End walls of sieve elements of minor veins of the leaves ofBeta vulgaris L. do not contain the multi-perforate sieve plateswhich typically occur on the end walls of sieve-tube membersof major veins. Instead, both end and side walls of the sieveelements of minor veins contain scattered pores which may occursingly or in small numbers. These pores are similar to thosewhich are grouped in sieve plates of major veins in size, possessionof callose and plugs of filaments. In addition to these pores,there are tubular connections 0.1 µ in diameter throughcharacteristically thickened parts of the cell wall betweensieve cells and companion cells. Sieve elements of minor veinsdiffer from those of major veins in structure as well as infunction.     

Pollen Development in Actinidia deliciosa var. deliciosa: Histochemistry of the Microspore Mother Cell Walls

The development of the microspore mother cell walls in Actinidiadeliciosa (kiwifruit) has been studied using light and electronmicroscopy. The microspore mother cell wall is similar, histochemically,and structurally in anthers from both functionally staminateand functionally pistillate flowers. Deposition, which beginsduring early prophase I, produces an electron-dense multilaminatedwall layer (layer a) and by the end of meiosis I a thick electron-lucentlayer (layer b) to the inside of this multilayered wall. Thereasons for histochemical differences and similarities betweenthese layers are discussed. The original primary wall persistsuntil the late uninucleate microspore stage. Layer (b), whichis probably mainly callose, dissolves at the late tetrad/earlymicrospore stage while layer (a), which probably also containsother polysaccharides, persists and dissolves concurrently withthe primary wall. Actinidia deliciosa, kiwifruit, microspore mother cell wall, callose, histochemistry, light microscopy, electron microscopy, male sterility     

Cytochemistry and Ultrastructure of Hyphae and Haustoria of Peronospora parasitica (Pers. ex Fr.) Fr.

The uniform distribution of nuclei, mitochondria, lipid material,protein, and RNA in the hyphae and haustoria of Peronosporaparasitica was demonstrated by staining techniques. Glycogenwas not detected, the only insoluble carbohydrate material detectedby the periodic acid-Schiff reaction being in the fungal wall.The host cell walls reacted more intensely to this stain thanthe hyphal walls. The reaction of haustorial walls varied betweenthe slight staining reaction characteristic of the fungal walls,and the strong reaction of the host cell wall. Callose sheathswere occasionally seen. Fine structure was found to be similar to that of other Oomycetes.Welldeveloped sheaths of a vesicular nature, possibly synonymouswith callose sheaths, were occasionally seen partly surroundinghaustoria.     

Isolation of living megaspores ofTorenia fournieri

Summary Viable megaspore protoplasts ofTorenia fournieri were isolated with enzymatic digestion and mild osmotic shock. With this method, living haploid protoplasts were released from the ovules, while very few sporophytic protoplasts were produced.