Programming of cell death during xylogenesis

Death of tracheary elements which compose vessels and tracheids is a typical example of programmed cell death in plants. Anin vitro system usingZinnia mesophyll cells which differentiate directly into tracheary elements has provided various types of data on the cell death process. In this paper, we will summarize recent results obtained using theZinnia system and discuss the programming of cell death during tracheary element differentiation. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

The cryptochrome family of blue/UV-A photoreceptors

The structural and functional properties of cryptochrome blue light receptors ofArabidopsis thaliana are described. Cryptochromes from ferns and algae, as well as a cryptochrome-like sequences from mammals, are discussed. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

Growth and reproductive patterns of <Emphasis Type="Italic">Undaria pinnatifida</Emphasis> sporophytes in a cultivation farm in Busan,Korea

Monthly growth and reproduction of Undaria pinnatifida sporophytes were examined over a period of 5 months in a cultivation farm in Korea. A total of 11 characters of Undaria were measured to determine a reliable morphological character representing its growth and reproduction. Plant weight of Undaria sporophytes increased steadily over the experimental period, but it increased in four different ways. Undaria pinnatifida increased body weight by growth in length and width (October–early December), and by growth in width with the thickening of blade and stipe when sporophytes began to be fertile (December–January). In the middle of January, growth in length and width had almost stopped with the maturation of Undaria sporophytes. Finally, the weight of Undaria increased again by growth in width at the end of February. Present results indicate that Undaria sporophytes increase body weight by growth in length and width at different times, and the relationship between reproduction and vegetative growth is exclusive. Plant weight was positively correlated and fitted well with stipe width and blade width. The blade of Undaria was very thin (ca. 254 μm) and breakable by wave action, but its stipe was strong and relatively thick (ca. 8.7 mm). Furthermore, the fertility of U. pinnatifida was fitted better with stipe width than blade width. Thus, we suggest that the stipe width is the most feasible character with which to estimate the growth and reproduction of U. pinnatifida sporophytes in the cultivation farm.     

Inhibitory effects of tunicamycin on cell-cell adhesion and cell reaggregation of the cellular slime mold,Polysphondylium pallidum

To assess the role in cell-cell adhesion of gp64, a putative cell-cell adhesion molecule ofPolysphondylium pallidum, we treated the cells with tunicamycin (TM), a known inhibitor of the synthesis of the N-linked oligosaccharide precursor, and examined TM's effect on cell-cell adhesion. The vegetative growth ofPolysphondylium cells was inhibited with TM in a dose-dependent manner. When cells were treated with TM (2.0 μg/ml) during only the first 4 hr of starvation and further starved for 8 hr without TM, the cells dissociated considerably, although even the growth phase cells ofPolysphondylium normally show EDTA-resistant (Ca²⁺-independent) cell adhesions. In parallel with the above effects, the amounts of intact gp64 decreased considerably in time with the lengths of incubation (0 hr>4 hr >8 hr). When TM-treated cells were washed free of TM, and shaken for a further 12 hr, the cells began to aggregate again, accompanied by an increase of gp64. In conclusion, TM affected cell-cell adhesion ofPolysphondylium cells, but we were not able to distinguish whether the inhibition of cell aggregation was due to defects in glycosylation on glycoproteins and/or due to reduced levels of glycoproteins themselves.     

Regulation of cell–cell adhesion during Dictyostelium development

During development of Dictyostelium, four adhesion systems have been identified and adherens junction-like structures have been discovered in the fruiting body. The temporal and spatial expression of cell adhesion molecules (CAMs) is under stringent developmental control, corresponding to major shifts in morphological complexity. Genetic manipulations, including over-expression and knockout mutations, of the adhesion genes, cadA (encoding DdCAD-1), csaA (gp80) and lagC (gp150), have shed light on new roles for cell adhesion molecules in aggregate size regulation, cell-type proportioning, cell differentiation and cell sorting. As cell–cell interactions remain highly dynamic within cell streams and aggregates, mechanisms must exist to facilitate the rapid assembly and disassembly of adhesion complexes. Studies on gp80 have led to a model for the rapid assembly of adhesion complexes via lipid rafts.     

Development of inflorescences inArabidopsis thaliana

Those mutants were studied whose defects resulted in the morphological changes of inflorescences inArabidopsis thaliana. We characterized newly isolatedcorymbosa mutants andacaulis5 mutants. Thecorymbosa1-1 mutation was caused by the defects in the elongation of pedicels and the previously identifiederecta mutation belonged to this class. Thecorymbosa2-1 mutation was caused mainly by the increase of the number of the floral buds in the inflorescence. The expression of theERECTA gene whose defect resulted to the corymbose inflorescence was analyzed. TheERECTA gene was expressed in subsets of cells in both the peripheral zone and central zone and was thought to have important role for the development of inflorescences. The phenotypes of theacaulis5 mutation was pronounced just after the transition from the vegetative to reproductive growth phase. We found that the expressions of the genes for EXGT-A1 and γ-TIP were drastically reduced in theacaulis5 mutants. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

Responses of Chrysanthemum Cells to Mechanical Stimulation Require Intact Microtubules and Plasma Membrane–Cell Wall Adhesion

Plant cells are highly susceptible and receptive to physical factors, both in nature and under experimental conditions. Exposure to mechanical forces dramatically results in morphological and microstructural alterations in their growth. In the present study, cells from chrysanthemum (Dendranthema morifolium) were subjected to constant pressure from an agarose matrix, which surrounded and immobilized the cells to form a cell-gel block. Cells in the mechanically loaded blocks elongated and divided, with an axis preferentially perpendicular to the direction of principal stress vectors. After a sucrose-induced plasmolysis, application of peptides containing an RGD motif, which interferes with plasma membrane-cell wall adhesion, reduced the oriented growth under stress conditions. Moreover, colchicines, but not cytochalasin B, abolished the effects of mechanical stress on cell morphology. Cellulose staining revealed that mechanical force reinforces the architecture of cell walls and application of mechanical force, and RGD peptides caused aggregative staining on the surface of plasmolyzed protoplasts. These results provide evidence that the oriented cell growth in response to compressive stress requires the maintenance of plasmalemma-cell wall adhesion and intact microtubules. Stress-triggered wall development in individual plant cells was also demonstrated.     

MAPKKK-Related protein kinase NPK1: Regulation of the M phase of plant cell cycle

The tobaccoNPK1 gene encodes a homolog of mitogenactivated protein kinase kinase kinases. We have recently identified tobacco kinesin-like proteins (NACK1/2) as activators for NPK1. Immunochemical analyses of NPK1 and NACK1 proteins suggest that NPK1 is involved in the regulation of some process in the M phase of the plant cell cycle. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

Genes involved in cytokinin signal transduction

Although cytokinin plays a central role in plant development, our knowledge about the signal transduction pathway initiated by this plant hormone is fragmentary. By randomly introducing enhancer elements into theArabidopsis genome throughAgrobacterium-mediated transformation, 5 cytokinin independent mutant calli (cki1-1, −2, −3, −4 andcki2) were obtained. These mutants exhibit typical cytokinin responses, including rapid proliferation, chloroplast differentiation, shoot induction and inhibition of root formation, in the absence of cytokinin. TheCKl1 gene encodes a product similar to the sensor histidine kinases of two-component systems, and its overexpression in plants induces typical cytokinin responses (Kakimoto 1996). Here I report that overexpression of this gene did not alter the auxin reqirement ofArabidopsis. Another mutant,many shoots, which was also identified on the same screening, produced many adventitious shoots on cotyledons, petioles and true leaves. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

Kinetic and functional analysis of the heparin-binding domain of fibronectin

We have previously shown that the heparin-binding domain of fibronectin (FN-HBD) enhances cell adhesion and proliferation of osteoblasts. Here we demonstrated that FN-HBD binds to heparin with a K_D of 5 μM. Although, FN-HBD itself produces a modest effect on cell adhesion in the absence of central cell-binding domain (CCBD), FN-HBD significantly enhances cell adhesion and spreading activities by a cooperative mechanism of CCBD in MG63 cells (P < 0.05).     

CENTRORADIALIS/TERMINAL FLOWER 1 gene homolog is conserved inN. tabacum, a determinate inflorescence plant

A mutation in theCENTRORADIALIS (CEN) gene ofAntirrhinum and in theTERMINAL FLOWER 1 (TFL1) gene ofArabidopsis causes their indeterminate inflorescence to determinate. We clonedCEN/TFL1 homologs fromNicotiana tabacum, the wild-type of which has a determinate inflorescence. TheCEN gene was expressed in the inflorescnece meristem and kept its inflorescence meristem identity, whereas the tobacco homolog (NCH) was expressed at a low level throughout the plant’s development. AlthoughCEN andNCH are highly homologous genes, they may have been recruited to different developmental functions during their evolution. TwoNCH genes are derived from amphidiploidN. tabacum, but both of them hybridized with its diploid parents,N. sylvestris andN. tomentosiformis. Southern blotting, and the genomic organization ofTFL1 inArabidopsis revealed that anotherCEN homolog exists in the genome ofArabidopsis. These results suggest that there are two copies of theCEN homolog per diploid plant. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology” These two authors contributed to this work equally.     

Effect of Cultivation Conditions on Growth and Adhesion of Bacillus licheniformis

Adhesion to glass of actively growing cells of the thermophilic Bacillus licheniformis, isolated from the Medyaginskaya test borehole (Yaroslavl' oblast), was studied. The reversible adhesion (RA) manifests itself in a decline of cell density (without cell lysis) in the liquid culture over the first 20–40 min of growth followed by normal exponential growth. The RA is minimal under favorable growth conditions but increases when cells are transferred to a new medium, especially one with a pH, temperature, salinity, or concentration of Ca²⁺ ions nonoptimal for the given species. Under unfavorable growth conditions, the adhesion becomes irreversible. The obtained data suggest that RA represents an adaptation mechanism important for population survival.     

Some properties of thePseudomonas fluorescens adhesin and antiadhesin

Some properties of the adhesion-modifying factors ofPseudomonas fluorescens are described. Adhesin, which promotes the adhesion ofP. fluorescens cells, is a hydrophobic compound of a protein nature with a molecular mass of more than 10 kDa located either at the cell surface or in the medium. Antiadhesin, which suppresses the adhesion ofP. fluorescens cells, is a thermolabile hydrophobic compound of a nonprotein nature with a molecular mass of less than 3 kDa. Heating makes antiadhesin hydrophilic. The role of adhesin and antiadhesin in the adhesion and adaptation ofP. fluorescens cells is discussed.     

Extracellular factors affecting the adhesion ofPseudomonas fluorescens cells to glass surfaces

Two factors affecting the adhesionof Pseudomonas fluorescens to glass surfaces were revealed in the culture liquid (CL) of this bacterium. One of these factors, adhesin, which is responsible for cell adhesion, was found to be a protein substance located both at the cell surface and in the CL. Bacterial cells grown in rich LB medium were less adhesive than cells grown in minimal M9 medium. The adhesive capacity of cells was independent of the growth phase. The other factor, antiadhesin (AA), which reduces cell adhesion, was found only in the CL. AA concentration in the CL increased with the culture age.     

Genetic pathways controlling carpel development inArabidopsis thaliana

Carpel development inArabidopsis is known to be controlled by the organ identity geneAGAMOUS. However, even in the absence of AGAMOUS function, many carpel properties can arise suggesting that other genes are also involved. Two new carpel genes,CRABS CLAW andSPATULA, have been recognised by their specific disruptions to carpel development in mutant plants. These disruptions suggest thatCRABS CLAW normally plays a role in promoting the growth of specific regions of the carpel wall, whereasSPATULA apparently has a primary function in promoting development of the transmitting tract. When the function of these genes is also compromised along with that ofAGAMOUS in multiply mutant plants, carpelloid properties vanish. ThusAGAMOUS, CRABS CLAW andSPATULA act together in specifying carpel development, although none can do this alone. BecauseSPATULA mutants are epistatic to mutants of another carpel development gene,ETTIN, the latter may normally act by suppressing the action ofSPATULA in specific regions of the developing gynoecium. There is indirect evidence thatETTIN, and another morphogenetic gene,PINOID, act through regulating auxin-induced growth in specific regions of the developing flower, but it is not yet known how this could result in the suppression of SPATULA function. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

Design and expression of oligomeric fibronectin fusion protein: a strategy for enhancing cell adhesion activity

Cell adhesion to extracellular matrices, including fibronectin, results in clustering of integrins in focal adhesions. To promote the clustering of fibronectin and thus enhance its activity at the sites of focal adhesion formation, we have engineered a fusion protein containing recombinant fibronectin fragment (hFN) connected to the tetramerization helix domain of lac repressor for oligomeric assembly. Purified Lac-hFN fusion protein exhibited significant increase of cell adhesion and proliferation of GF cells compared with hFN alone (p < 0.05).     

The flowering-time geneFT and regulation of flowering inArabidopsis

Transition from vegetative to reproductive development (flowering) is one of the most important decisions during the post-embryonic development of flowering plants. More than twenty loci are known to regulate this process inArabidopsis. Some of these flowering-time genes may act at the shoot apical meristem to regulate its competence to respond to floral inductive signals and floral evocation. Genetic and phenotypic analyses of mutants suggest that the late-flowering geneFT may be a good candidate for such genes. To test this, we have cloned theFT gene using aFT-deficiency line associated with a T-DNA insertion. Cloned genes and loss-of-function mutants in hand, it is now possible to analyse the role ofFT and other genes in flowering at the biochemical and cellular levels as well as at the genetic level. The deduced FT protein has homology with TFL1 and CEN proteins believed to be involved in regulation of inflorescence meristem identity. Phylogenetic analysis suggests that theFT group and theTFL1/CEN group of genes diverged before the diversification of major angiosperm clades. This raises the interesting question of the evolutionary relationship between the regulation of vegetative/reproductive switching in the shoot apical meristem and the regulation of inflorescence architecture in angiosperms. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Fronitier of Plant Biology”     

Enhanced germination under high-salt conditions of seeds of transgenicArabidopsis with a bacterial gene (codA) for choline oxidase

Arabidopsis thaliana was transformed previously with thecodA gene from the soil bacteriumArthrobacter globiformis. This gene encodes choline oxidase, the enzyme that converts choline to glycinebetaine. Transformation with thecodA gene significantly enhanced the tolerance of transgenic plants to low temperature and high-salt stress. We report here that seeds of transgenic plants that expressed thecodA gene were also more tolerant to salt stress during germination than seeds of non-transformed wild-type plants. Seedlings of transgenic plants grew more rapidly than those of wild-type plants under salt-stress conditions. Furthermore, exogenously applied glycinebetaine was effective in alleviating the harmful effects of salt stress during germination of seeds and growth of young seedlings, a result that suggests that it was glycinebetaine that had enhanced the tolerance of the transgenic plants. These observations indicate that synthesis of glycinebetaine in transgenic plantsin vivo, as a result of the expression of thecodA gene, might be veryuseful in improving the ability of crop plants to tolerate salt stress. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”     

Virtual issue: cell wall functions in plant growth and environmental responses

Journal of Plant Research - Plant cell walls have multiple functions, including determining cell shape and size, cell–cell adhesion, controlling cell differentiation and growth, and promoting...