In-situ localization of chalcone synthase mRNA in pea root nodule development

In this paper studies on the role of flavonoids in pea root nodule development are reported. Flavonoid synthesis was followed by localizing chalcone synthase (CHS) mRNA in infected pea roots and in root nodules. In a nodule primordium, CHS mRNA is present in all cells of the primordium. Therefore it is hypothesized that the Rhizobium Nod factor induces cell division in the root cortex by stimulating the production of flavonoids that function as auxin transport inhibitors. In nodules CHS mRNA is predominantly present in a region at the apex of the nodule consisting of meristematic and cortical cells. These cells are not infected by Rhizobium. Therefore it is postulated that CHS plays a role in nodule development rather than in a defence response. In roots CHS mRNA is located at a similar position as in nodules, suggesting that CHS has the same function in both root and nodule development. When nodules are formed by mutants of Rhizobium leguminosarum bv. viciae that are unable to secrete β(1-2) glucan and to synthesize the O-antigen containing LPS I, CHS genes are also expressed in regions of the nodule that are infected by Rhizobium. It is postulated that the impaired development of nodules formed by these mutants is due to an induction of a plant defence response.     

Cell division of binuclear cells induced by caffeine: Spindle organization and determination of division plane

Synchronously dividing binuclear cells were induced in root tips ofTriticum turgidum by caffeine treatment. Spindle and other microtubular configurations of such cells were studied using tubulin immunofluorescence and electron microscopy. The binuclear cells developed one, two or three preprophase microtubule bands longitudinally, transversely or rarely in a cross configuration. During the mitotic entry binuclear cells formed prophase spindles separately around each nucleus. When the nuclei were located fairly apart, their spindle structures developed independently throughout all mitotic phases. But when the nuclei were located closely together their metaphase and anaphase spindles shared a common polar region. However, the two spindles in such cells retained their functional autonomy. They display structurally independent minipoles in the common polar region. After anaphase the neighbouring nonsister chromosome groups of nuclei divided by a common polar region come to lie close together and in telophase, become enclosed by a common nuclear envelope. During cytokinesis of binuclear cells cell plates were formed only between sister nuclei. These cell plates may develop normally or may curve or branch giving rise to aberrant daughter cell walls. The peculiar mode of spindle and spindle polar region organization of binuclear cells and determination of the division plane in them are discussed.     

Expression of the major tyrosyl phosphoprotein of 54 KDa in the integument of the medflyCeratitis capitata

Expression of a 54 kDa tyrosyl phosphorylated protein in epidermal cells during the third instar larval stage was followed. It was demonstrated that the 54 kDa protein moiety and its phosphorylated counterpart follow the same developmental profile. The system seems to be regulated only at the onset of the second moult, by an initial signal which regulates both the synthesis and phosphorylation of a 54 kDa protein. The continuous presence this protein in epidermal cells during the third instar stage, as well as during apolysis and histolysis, suggests that it might participate in cell activities taking place during this developmental period. However, the 54 kDa protein could no be involved in specific epidermal cell activities such as histolysis, melanization and sclerotization, since these activities occur only at specific times during the third instar stage.     

The effect of taxol onTriticum preprophase root cells: preprophase microtubule band organization seems to depend on new microtubule assembly

Summary To examine whether preprophase microtubule band (PPB) organization occurs by rearrangement of pre-existing, or by assembly of new microtubules (Mts), we treated root cells ofTriticum turgidum with taxol, which stabilizes pre-existing Mts by slowing their depolymerization. With taxol early preprophase cells failed to form a normal PPB and PPB narrowing was prevented in cells that had already formed a wide one. The PPB became persistent in prometaphase cells and the formation of multipolar prophase-prometaphase spindles was induced. These data favour the suggestion that PPB formation and narrowing, as well as prophase spindle development, are dynamic processes depending on continuous Mt assembly at the PPB site and in the perinuclear cytoplasm.Abbreviations Mt microtubule - MTOC microtubule organizing centre - PPB preprophase microtubule band - DMSO dimethyl sulfoxide     

Experimental studies on the function of the cortical cytoplasmic zone of the preprophase microtubule band

Summary Centrifugation of young seedlings ofTriticum durum andTriticum aestivum for 8–10 hours at 1,500–2,000 x g causes a serious disorder of the spatial organelle relationships in the interphase as well as the preprophase and mitotic subsidiary cell mother cells (SMCs). The nucleus, most organelles and cytoplasm are displaced to the centrifugal end of the cell, while the vacuoles lie at the other end. However, after centrifugation, the preprophase microtubule bands (PMBs) are nucleated and remain at the expected position close to the guard cell mother cells (GMCs). In some elongated SMCs the PMBs become completely separated from the nucleus. The mitotic spindle exhibits variable orientation and is usually formed at some distance from the PMB cortical zone.Cytokinesis in SMCs is spatially highly disturbed and the cell plate shows a variety of unpredictable dispositions, which seem to be determined by: 1. the position of the preprophase-prophase nucleus and the orientation of the mitotic spindle as well as their spatial relationships to the PMB cortical zone, and 2. the space available for cell plate growth. Many of the daughter cells exhibit a highly variable shape and size in different planes. Usually one edge of the cell plate partly or totally joins the anticlinal parent wall adjacent to the PMB cortical zone.In some SMCs ofZea mays andTriticum aestivum, the junction regions of the periclinal walls with the anticlinal ones, lined by the PMB cortical zone in normal SMCs, are detectably thickened after the arrest of mitosis and the prevention of interphase microtubule formation by a prolonged colchicine treatment. In a small number of protodermal cells of the same plants, participating in the development of stomatal complexes, irregular wall bodies or incomplete wall sheets were formed at wall regions lined by the PMB cortical zone.The presented observations are in line with the following hypotheses: 1. the PMB cortical zone interacts with the growing edges of the cell plate attracting it to fuse with the underlying parent wall when the latter approaches the former at a critical distance, and 2. in SMCs particular regions of the PMB cortical zone and/or the adjacent plasmalemma promote the local wall deposition in the absence of microtubules.     

Histochemical studies on the oil-bodies ofMarchantia paleacea bert

Summary Correlated light and electron microscope histochemistry was performed on the oil bodies (OB) ofMarchantia paleacea. It was revealed that they contain significant quantities of material positive to PAS and periodic acid-thiocarbohydrazide-silver proteinate (PA-TCH-SP) reactions. Ag deposits were localized on the matrix surrounding the globules and on the distinct one close to the inner face of the OB membrane. In addition, the lipophilic globules were peripherally impregnated with staining product. Polysaccharidic material appears to be elaborated in dictyosomes and then advanced into the OB by their vesicles.The OB show a lipophilic character and are intensely stained with Sudan black B, with an aqueous solution of osmium tetroxide and with the Nadi reaction as modified byDavid andCarde (1964).The performance of mercury bromophenol blue, aniline blue black, coomassie brilliant blue R and acid fuchsin stainings showed that the OB do not contain structurally detectable proteins. Besides, a positive reaction of the inner OB was obtained in fresh tissue with a variety of tests sensitive to phenolic or other aromatic ring compounds. On the contrary, the epidermal and scale OB containing small globules are obviously stained only with Gibbs' reagent. The colours obtained with the above reactions, were almost the same,i.e. brown with a red shade, except for the blue one of the Gibbs' reagent.The presented observations favour the conclusion that the OB matrix does not contain proteins, but substances polysaccharidic in nature. Phenolic and possibly other aromatic compounds appear to be present at least in inner OB.     

A thermosensitivepdxJ mutation affecting vitamin B6 biosynthesis inEscherichia coli K-12

A temperature-sensitive mutation affecting pyridoxine biosynthesis inEscherichia coli has been isolated following nitrosoguanidine mutagenesis. This is the first report of a conditional mutation affecting that pathway. Three-point transductional analysis and an Hfr mating test indicate that the affected locus ispdxJ and that the gene order isglyA-purI-pdxJ-nadB. The data confirm the present genetic map position ofpdxJ, which had not been accurately determined. Cells carrying the mutation exhibit an absolute requirement for 2.5 μM vitamin B₆ when inenbated at temperatures of 38°C or higher.