Effect of exogenous specific lectin on lectin activity in the wheat seedlings and leaves

The effect of presowing treatment of wheat seeds by exogenous wheat lectin on endogenous activity of lectin as well as on RNA content in vegetative organs of wheat was investigated. The variability of lectin activity in the seedling and leaves of wheat plants was obtained. Both endogenous activity of lectin and RNA amount increase under the effect of exogenous lectin. This effect was partially inhibited by the hapten of the wheat lectin. The possibility of induction of modifications in both endogenous lectin pool and functional activity of plant genome by exogenous lectin is under discussion.     

Distribution of wheat germ agglutinin in young wheat plants

A liquid phase, competition-binding radioimmunoassay for wheat germ agglutinin, with a detection limit of 10 nanograms, was developed in order to determine the distribution of this lectin in young wheat plants. Affinity columns for wheat germ agglutinin removed all antigenically detectable activity from crude extracts of wheat tissue; thus, the antigenic cross-reactivity detected by the assay possesses sugar-binding specificity similar to the wheat germ-derived lectin. The amount of lectin per dry grain is approximately 1 microgram, all associated with the embryo. At 34 days of growth, the level of lectin per plant was reduced by about 50%, with approximately one-third in the roots and two-thirds in the shoot. The data also indicate that actively growing regions of the plant (the bases of the leaves and rapidly growing adventitious roots) contain the highest levels of lectin. Half of the lectin associated with the roots could be solubilized by washing intact roots in buffer containing oligomers of N-acetylglucosamine, whereas the remainder is liberated only upon homogenization of the tissue.     

WGA reduces the level of oxidative stress in wheat seedlings under salinity

Protective effect of exogenous wheat germ agglutinin (WGA) on wheat seedling (Triticum aestivum L.) during salinity stress was studied. In particular, we examined the state of pro- and antioxidant systems as well as the level of peroxide oxidation of lipids and electrolyte leakage under control conditions and when stressed with NaCl. Generation of superoxide anions and activity of both superoxide dismutase (SOD) and peroxidase increased during saline stress. Accumulation of O₂ ^·− resulted in peroxide oxidation of lipids and electrolyte leakage in response to stress. The injurious effect of salinity on root growth of seedlings was manifested by a decreased mitotic index (MI) in apical root meristem. This study show that WGA pretreatment decreased salt-induced superoxide anion generation, SOD and peroxidase activities, levels of lipid peroxidation and electrolytes leakage as well as correlating with a reduction in the inhibition of root apical meristem mitotic activity in salt-treated plants. This suggests that exogenous WGA reduced the detrimental effects of salinity-induced oxidative stress in wheat seedlings. Thus WGA effects on a balance of reactive oxygen species (ROS) and activities of antioxidant enzymes may provide an important contribution to a range of the defense reactions induced by this lectin in wheat plants.     

Effect of lectins from <Emphasis Type="Italic">Azospirillum brasilense</Emphasis> to peroxidase and oxalate oxidase activity regulation in wheat roots

Lectins were extracted from the surface of nitrogen-fixing soil bacteria Azospirillum brasilense Sp7 and from its mutant A. brasilense Sp7.2.3 defective in lectin activity. The ability of lectins to stimulate the rapid formation of hydrogen peroxide related to increase of oxalate oxidase and peroxidase activity in the roots of wheat seedlings has been demonstrated. The most rapid induced pathway of hydrogen peroxide formation in the roots of wheat seedlings was the oxalic acid oxidation by oxalate oxidase which is the effect of lectin in under 10 min in a concentration of 10 μg/ml. The obtained results show that lectins from Azospirillum are capable of inducing the adaptation processes in the roots of wheat seedlings.     

Effect of exogenous lectin on the endogenous lectin and antioxidant enzymes activity and flavonoid content in wheat

The presawing treatment of wheat seeds by lectin specific to the plant and its compositions with gapten and nitrogen fixation bacteria on the change in enzyme activity of antioxidant system of plant protection (peroxydase and katalase), endogenous lectin activity and flavonoid content in wheat leaves was studied in vegetation experiments. It is shown, that different biochemical links of protection plant system are activated, i.e. lectin activity in leaves increases 1.3 to 1.5 times, peroxydase activity and katalase activity rises 1.5 times and 5.0 to 8.0 times respectively and flavonoide content in leaves of vegetating plants increases under normal conditions of plant growth at the influence of factors of lectin nature.     

Metabolic changes in wheat (Triticum aestivum L.) plants under action of bioregulator stifun

Under action of growth-stimulating concentrations of bioregulator stifun on wheat plants, an increase of functional activity of nucleoli of meristematic cells; contents of lectin (wheat germ agglutinin); and activity of proteinases, tripsin inhibitors, and ATPase activity was established. The pool of free amino acids was increased under bioregulator use. Levels of methionine, phenylalanine, cysteine, lysine, and tyrosine were increased. It is likely that stifun could activate protein biosynthesis in wheat plants.     

Metabolic changes in wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.) plants under action of bioregulator stifun

Under action of growth-stimulating concentrations of bioregulator stifun on wheat plants, an increase of functional activity of nucleoli of meristematic cells; contents of lectin (wheat germ agglutinin); and activity of proteinases, tripsin inhibitors, and ATPase activity was established. The pool of free amino acids was increased under bioregulator use. Levels of methionine, phenylalanine, cysteine, lysine, leucine and tyrosine were increased. It is likely that stifun could activate protein biosynthesis in wheat plants.     

Immunocytochemical localization of wheat germ agglutinin in wheat

Immunocytological techniques were developed to localize the plant lectin, wheat germ agglutinin (WGA), in the tissues and cells of wheat plants. In a previous study we demonstrated with a radioimmunoassay that the lectin is present in wheat embryos and adult plants both in the roots and at the base of the stem. We have now found, using rhodamine, peroxidase, and ferritin-labeled secondary antibodies, that WGA is located in cells and tissues that establish direct contact with the soil during germination and growth of the plant In the embryo, WGA is found in the surface layer of the radicle, the first adventitious roots, the coleoptile, and the scutellum. Although found throughout the coleorhiza and epiblast, it is at its highest levels within the cells at the surface of these organs. In adult plants, WGA is located only in the caps and tips of adventitious roots. Reaction product for WGA was not visualized in embryonic or adult leaves or in other tissues of adult plants. At the subcellular level, WGA is located at the periphery of protein bodies, within electron-translucent regions of the cytoplasm, and at the cell wall-protoplast interface. Since WGA is found at potential infection sites and is known to have fungicidal properties, it may function in the defense against fungal pathogens.     

Characterization of a wheat germ agglutinin-like lectin from adult wheat plants

Radioimmuno-and enzyme-linked immunosorbent assays show that a substantial amount of wheat germ agglutinin(WGA)-like protein is present at the base of the shoot and in the roots of adult wheat (Triticum aestivum L.) plants. The protein can be purified by hapten-and antibody-mediated affinity procedures. It forms an arc of identity with the embryo lectin upon Ouchterlony double-diffusion and is an active lectin that agglutinates trypsinized erythrocytes in an N-acetylglucosamine-and chitin-inhibitable manner. Reduced and carboxyamidated protein comigrates with the 18-kdalton subunits of embryo lectin on sodium dodecyl sulfate-polyacrylamide gels. Invivo labeling of 9-d-old, hydroponically grown plants with ³⁵S-labeled sulfate demonstrates that at least some of the WGA-like protein is synthesized de novo. Immunocytochemistry with rabbit anti-WGA and colloidal-gold-conjugated second antibody shows that cross-reactive protein is present at the tips of new adventitious roots. In reactive cells, the lectin is localized near the inner surface of the vacuole membrane. Wheat plants contain up to 100 ng of WGA-like protein after the first week of growth, but the level fluctuates thereafter. Since most of the lectin is present at the base of the shoot and much less is found in older roots, these fluctuations may be the consequence of changes in the initiation of new advantitious roots.Abbreviations ELISA enzyme-linked immunosorbent assay - GlcNAc N-acetylglucosamine - PBS phosphate-buffered saline - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - WGA wheat germ agglutinin     

Effect of spraying nitrogen-fixing phyllospheric bacterial isolates on wheat plants

Summary Culture of two nitrogen-fixing bacteria (REN₂ and JN₁) isolated from rice and jute phyllospheres respectively, were sprayed on wheat plants as substitute for nitrogenous fertilisers. There was a marked improvement in yield and growth of the plants. An average increase in yield by 70% was obtained which was very near to that obtained by fertilizer treatment.     

Nitrogen fixation in wheat provided by Klebsiella pneumoniae 342

In this report, all of the criteria necessary for the demonstration of nitrogen fixation in wheat (Triticum aestivum L.), the world's most important crop, are shown upon inoculation with a nitrogen-fixing bacterium, Klebsiella pneumoniae 342 (Kp342). Kp342 relieved nitrogen (N) deficiency symptoms and increased total N and N concentration in the plant. Nitrogen fixation was confirmed by 15N isotope dilution in the plant tissue and in a plant product, chlorophyll. All of these observations were in contrast to uninoculated plants, plants inoculated with a nitrogen-fixing mutant of Kp342, and plants inoculated with dead Kp342 cells. Nitrogenase reductase was produced by Kp342 in the intercellular space of the root cortex. Wild-type Kp342 and the nifH mutant colonized the interior of wheat roots in equal numbers on a fresh weight basis. The nitrogen fixation phenotype described here was specific to cv. Trenton. Inoculation of cvs. Russ or Stoa with Kp342 resulted in no relief of nitrogen deficiency symptoms.     

Change of the wheat lectin activity and degree of its interaction with different components of compositions of lectin nature

The wheat lectin hemagglutination activity and degree of its interaction with the bacterium Azotobacter chroococcum T79 and aminosaccharide N-acetyl-D-glucosamin hapten of wheat lectin was studied in laboratory experiments with the purpose of creation of biologic activity compositions of lectin nature for plant growing. It was shown that plant-bacterial compositions encloses the "bacteria+lectin" complex, free lectin and bacterial cells. The addition of aminosaccharide N-acetyl-D-glucosamin to wheat lectin, to the bacterial culture and plant-bacterial composition decreases its hemagglutination activity. The possibility of creation of new complexes in this compositions effected by hapten "lectin+hapten", "lectin+hapten+bacteria", "bacteria+hapten" is under discussion.     

Studies on biological decomposition of wheat straw

Summary The incorporation of undecomposed wheat straw in the soil along-with the micro-organisms favourably increased the yield of groundnut crop. An increase of 37 per cent in yield was recorded when wheat straw was inoculated withPenicillium digitatum and the C:P ratio was adjusted to 65. Inoculated treatments of narrower C:P ratio gave a higher yield than wider C:P ratio treatments inoculated with the same cultures. An increase in nitrogen uptake by groundnut plants was recorded due to incorporation of straw alongwith the micro-organisms in soil. The organic carbon and nitrogen content of the soil increased with all the treatments except control. The highest increase in organic carbon and nitrogen of the soil was observed with a treatment of wheat straw of 65 C:P ratio inoculated withS. coccosporum. The yield of wheat crop after groundnut was significantly more with several treatments than control plots. The highest increase of 79 per cent in grain yield of wheat was observed in the plots previouslq received with wheat straw of 200 C:P ratio.This paper is based on the data presented at IV Southern Regional Conference on Microbial Inoculants, held at Parbhani during 3–4 July 1978.     

Change in the content of salicylic acid and activities of phenylalanine ammonia-lyase and catalase in wheat seedling roots under the influence of Azospirilium lectins

The time course of changes in the endogenous content of salicylic acid, the ratio between the acid’s free and bound forms, and changes in the activities of phenylalanine ammonia-lyase and catalase in wheat seedling roots under the effect of lectins of two strains of the associative nitrogen-fixing bacterium Azospirillum (A. brasilense Sp7 and its mutant defective in lectin activity, A. brasilense Sp7.2.3) is investigated. Differences in plant response to the action of the lectins from these two strains are established. On the basis of the obtained data, a model is proposed for lectin-assisted induction of resistance, according to which the lectin effect on the roots of seedlings results in the accumulation of free salicylic acid, which inhibits catalase activity, ultimately leading to accumulation of hydrogen peroxide and formation of induced resistance.     

Lectin and mitotic activities in root meristems of winter wheat under oryzalin effect

The effect of oryzalin, a microtubule polymerization inhibitor (10 MM), on lectin and mitotic activities (mitotic index and duration of mitotic phases) was studied in unhardened (23 degrees C) and hardened (7 days, 2-3 degrees C) winter wheat seedlings. Three wheat cultivars differing in their frost tolerance were compared. Oryzalin treatment (3 h) decreased activity of soluble lectins, increased activity of cell wall lectin mitotic index. Under these conditions, prolongation of anaphases and disappearance of telophases were detected. Plant hardening reduced the sensitivity of cell wall lectins and mitotic activity to the cytoskeleton inhibitor due, presumably, to the appearance of cold-stable microtubules. Plant growing and hardening with oryzalin stopped mitoses and caused the appearance of polyploid cells and cells with micronuclei. These abnormalities were preserved after hardening. The results obtained demonstrate an important role of microtubules in adaptation of plants to low temperature.     

Nitrogen-fixing bacteria alleviates competition between arbuscular mycorrhizal fungi and Solidago canadensis for nutrients under nitrogen limitation

丛枝菌根真菌(AMF)能与大多数陆生植物的根系形成共生体, 有助于宿主植物吸收养分。但营养胁迫下, 根系微生物对AMF与宿主植物间关系的影响少见报道。该研究假设: 在营养极度匮乏(如氮胁迫)环境下, AMF与宿主植物可能产生营养竞争, 而固氮菌的介入能够缓解两者对营养的竞争关系。为了验证这一假设, 该文探究了加拿大一枝黄花(Solidago canadensis)生长受限的氮浓度, 并在氮受限条件下检验了AMF、加拿大一枝黄花及固氮菌三者间的关系。结果表明: 低氮处理明显抑制了加拿大一枝黄花的地上生物量和总生物量, 尤其以0.025 mmol·L^-1 N的氨态氮对加拿大一枝黄花的负影响更甚。在此氮浓度下, 单独添加AMF总体上都进一步抑制了加拿大一枝黄花的生长, 而固氮菌的添加在一定程度上提高了氮受限条件下AMF对宿主的根部侵染率及宿主植物生物量。这表明固氮菌能够缓和氮受限条件下AMF和加拿大一枝黄花间的营养竞争关系。研究结果加深了对外来植物在极度营养胁迫环境下与多种微生物互作的入侵机制的理解。     

固氮菌缓解氮限制环境中丛枝菌根真菌对加拿大一枝黄花的营养竞争

丛枝菌根真菌(AMF)能与大多数陆生植物的根系形成共生体, 有助于宿主植物吸收养分。但营养胁迫下, 根系微生物对AMF与宿主植物间关系的影响少见报道。该研究假设: 在营养极度匮乏(如氮胁迫)环境下, AMF与宿主植物可能产生营养竞争, 而固氮菌的介入能够缓解两者对营养的竞争关系。为了验证这一假设, 该文探究了加拿大一枝黄花(Solidago canadensis)生长受限的氮浓度, 并在氮受限条件下检验了AMF、加拿大一枝黄花及固氮菌三者间的关系。结果表明: 低氮处理明显抑制了加拿大一枝黄花的地上生物量和总生物量, 尤其以0.025 mmol·L^-1 N的氨态氮对加拿大一枝黄花的负影响更甚。在此氮浓度下, 单独添加AMF总体上都进一步抑制了加拿大一枝黄花的生长, 而固氮菌的添加在一定程度上提高了氮受限条件下AMF对宿主的根部侵染率及宿主植物生物量。这表明固氮菌能够缓和氮受限条件下AMF和加拿大一枝黄花间的营养竞争关系。研究结果加深了对外来植物在极度营养胁迫环境下与多种微生物互作的入侵机制的理解。     

Jacalin domain in wheat jasmonate-regulated protein Ta-JA1 confers agglutinating activity and pathogen resistance

Ta-JA1 is a jacalin-like lectin from wheat (Triticum aestivum) plants. To date, its homologs are only observed in the Gramineae family. Our previous experiments have demonstrated that Ta-JA1 contains a modular structure consisting of an N-terminal dirigent domain and a C-terminal jacalin-related lectin domain (JRL) and this protein exhibits a mannose-specific lectin activity. The over-expression of Ta-JA1 gene provides transgenic plants a broad-spectrum resistance to diseases. Here, we report the differential activities of the dirigent and JRL domains of Ta-JA1. In vitro assay showed that the recombinant JRL domain could effectively agglutinate rabbit erythrocytes and pathogen bacteria Pseudomonas syringe pv tabaci. These hemagglutination activities could be inhibited by mannose but not by galactose. In contrast, the recombinant dirigent domain did not show agglutination activity. Corresponding to these differentiations of activities, similar to full-length of Ta-JA1, the over-expression of JRL domain in transgenic plants also increased resistance to the infection of P. syringe. Unlike JRL, the over-expression of dirigent domain in transgenic plants led to alteration of the seedling sensitivity to salts. In addition, a d_N/d_S ratio analysis of Ta-JA1 and its related proteins showed that this protein family functionally limited to a few crop plants, such as maize, rice and wheat.     

Glycoproteins from Russian wheat aphid infested wheat induce defence responses

Elicitors are molecules which can induce the activation of plant defence responses. Elicitor activity of intercellular wash fluid from Russian wheat aphid, Diuraphis noxia (Mordvilko) infested resistant (cv Tugela DN), and susceptible (cv Tugela), wheat (Triticum aestivum L.), was investigated. Known Russian wheat aphid resistance related responses such as peroxidase and beta-1,3-glucanase activities were used as parameters of elicitor activity. The intercellular wash fluid from infested resistant plants contains high elicitor activity while that from infested susceptible plants contains no or very little elicitor activity. After applying C-18 reverse phase and concanavalin A Sepharose chromatography, elicitor active glycoproteins were isolated from the intercellular wash fluid of Russian wheat aphid infested resistant wheat. The elicitor-active glycoproteins separated into three polypeptides during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The isolated glycoproteins elicited peroxidase activity to higher levels in resistant than in susceptible cultivars. It was evident that the glycoproteins were probably a general elicitor of plant origin. Information gained from these studies is valuable for the development of plant activators to enhance the defence responses of plants.