A genetic basis for the origin of six different isolectins in hexaploid wheat

Wheat (Triticum aestivum) germ agglutinin represents a complex mixture of multiple isolectin forms. Upon ion exchange chromatography at pH 3.8, three isolectins can be separated, each of which is composed of two identical subunits. At pH 5.0, however, three additional isolectins can be distinguished, which are built up of two different subunits (heteromeric lectins). Evidence is presented that these heterodimers are normal constituents of the wheat embryo cells. Analyses of the isolectin patterns in extracts from Triticum monococcum, Triticum turgidum dicoccum and Triticum aestivum, provide evidence that each genome, either in simple or complex (polyploid) genomes, directs the synthesis of a single lectin subunit species. In addition, a comparison of the isolectin pattern in these wheat species of increasing ploidy level, made it possible to determine unequivocally the genome by which the individual lectin subunits in polyploid species are coded for. The possible use of lectins in studies on the origin of individual genoms in polyploid species is discussed.Abbreviations CL cereal lectin - PBS phosphate buffered saline - SP Sephadex sulfopropyl Sephadex - WGA wheat germ agglutinin     

Lectin synthesis in developing and germinating wheat and rye embryos

Wheat (Triticum aestivum L.) and rye (Secale cereale L.) lectins are specifically synthesized during seed formation. They accumulate exponentially in the primary axes in a period coinciding with the development of this complex organ. Since the specific lectin content also increases dramatically, there is apparently an outburst of lectin synthesis during the development of the primary axes. Germinating embryos also synthesize some lectin. The fortunate availability of a highly specific procedure for the isolation of cereal lectins enabled us to follow the kinetics of their synthesis during early germination. Stored mRNAs appear to be involved in this residual lectin synthesis.     

In vitro synthesis of lectins in cell-free extracts from dry wheat and rye embryos

Cell-free extracts from dry wheat (Triticum vulgare L.) and rye (Secale cereale L.) embryos do not synthesize their corresponding lectins when incubated under conditions optimalized for translation of either exogenous or endogenous mRNA. Only when the extracts are prepared and incubated in the complete absence of sulphydryl containing compounds lectins are synthesized in vitro. Since immunoprecipitation techniques could not demonstrate unequivocally the presence of lectin among the cell-free translation products a specific affinity purification procedure has been developed in order to proof the presence of stored lectin mRNAs in dry wheat and rye embryos.Abbreviations DTT dithiothreitol - SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis - TCA trichloracetic acid     

Comparative study of the post-translational processing of the mannose-binding lectins in the bulbs of garlic (Allium sativum L.) and ramsons (Allium ursinum L.)

The biosynthesis and processing of the homodimeric and heterodimeric lectins from the bulbs of garlic (Allium sativum) and ramsons (wild garlic;Allium ursinum) were studied using pulse and pulse-chase labelling experiments on developing bulbs. By combining the results of thein vivo biosynthesis studies and the cDNA cloning of the respective lectins, the sequence of events leading from the primary translation products into the mature lectin polypeptides could be reconstructed. From this it is demonstrated that garlic and ramsons use different schemes of post-translational modifications in order to synthesize apparently similar lectins from totally different precursors. Both the homomeric garlic lectin (ASAII) and its homologue in ramsons (AUAII) are synthesized on the endoplasmic reticulum (ER) as nonglycosylated 13.5 kDa precursors, which, after their transport out of the ER are converted into the mature 12.0 kDa lectin polypeptides by the cleavage of a C-terminal peptide. The heterodimeric garlic lectin ASAI is synthesized on the ER as a single glycosylated precursor of 38 kDa, which after its transport out of the ER undergoes a complex processing which gives rise to two mature lectin subunits of 11.5 and 12.5 kDa. In contrast, both subunits of the heterodimeric ramsons lectin AUAI are synthesized separately on the ER as glycosylated precursors, which after their transport out of the ER are deglycosylated and further processed into the mature lectin polypeptides by the cleavage of a C-terminal peptide.     

A lectin from Bryonia dioica root stocks

An N-acetylgalactosamine-specific lectin has been isolated from root stocks of Bryonia dioica by affinity chromatography on fetuin-agarose. It is a dimeric protein composed of two different subunits of relative molecular masses 32,000 and 30,000, held together by intermolecular disulphide bonds. Although most abundant in root stocks, the lectin occurs in all vegetative parts of the plant but not in seeds. Bryony lectin differs from other Cucurbitaceae lectins and from all known N-acetylgalactosamine-specific lectins.Abbreviations BDA Bryonia dioica agglutinin - M_r relative molecular mass - PBS phosphate-buffered saline - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Genetic control of triosephosphate isomerase isoenzymes in wheat and rye

Summary The patterns of chloroplastic and cytosolic isoenzymes of triosephosphate isomerase were analysed by immunoblotting in leaves of rye, wheat, and some species of Aegilops or Agropyrum. While rye contained solely one chloroplastic and one cytosolic isoenzyme, wheat had a much more complex pattern which can be explained by the presence of three genomes in 6 x wheats (AABBDD) with distinct triosephosphate isomerase genes that provided different subunit species for the dimeric isoenzyme molecules. The 6 × wheats contained five, the 4 × wheats three, and the 2 × wheats only one chloroplastic isoenzyme band. The isoenzyme patterns were in accordance with a potential origin of one of the three chloroplastic triosephosphate isomerase genes of 6 × wheats from an Aegilops ancestor. The descent of the other two genes was, however, not in accordance with common contentions on the general evolution of cultural wheats. In the reciprocal intergeneric hybrids Secalotricum and Triticale both the chloroplastic and the cytosolic isoenzyme patterns of rye and wheat were biparentally inherited, indicating that both isoenzymes were controlled by nuclear genes. When monitored by immunoblotting the chloroplastic triosephosphate isomerase isoenzymes may provide useful genetic markers.     

Occurrence and synthesis of lectin in coleoptiles of germinating wheat,rye and rice seedlings

Occurrence, synthesis and localization of lectins in coleoptiles of 3-day old seedlings of wheat, rye, barley and rice were studied by a combination of high resolution ion-exchange chromatography, in vivo labelling with ³⁵S-cysteine and immunocytochemistry. Whereas no lectin can be isolated or localized in barley coleoptile, 1.9 and 40 ng of lectin per coleoptile was obtained from wheat and rye respectively. Wheat germ agglutinin was localized in the outer layer of the wheat coleoptile and both inner and outer layers of rye coleoptile displayed a specific reaction. In rice, 250 ng of lectin is present in the coleoptile and is distributed throughout this organ. Wheat coleoptiles synthesize no lectin and rye coleoptiles synthesize minute amounts while those from developing rice seedlings incorporate reasonable amounts of ³⁵S-cysteine into lectin.Abbreviations FPLC Fast Protein Liquid Chromatography - GlcNAc N-acetylglucosamine - PBS phosphate buffered saline - SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis     

Different antimetabolic effects of related lectins towards nymphal stages ofNilaparvata lugens

Insect feeding trials were carried out to determine the effects of a range of mannose-specific lectins on third instar nymphs of the rice brown planthopper (BPH), Nilaparvata lugens. Stål. Dose response curves show that Galanthus nivalis agglutinin (GNA) has the strongest toxic effect of the lectins tested, and is effective at concentrations considerably lower than those previously reported. Narcissus pseudonarcissus agglutinin (NPA) and Allium sativum agglutinin (ASA) exhibit a significant antimetabolic effect towards the insect but were less effective (on a molar basis) than GNA. LC₅₀ values for GNA, NPA and ASA are approximately 4 μM, 11 μM and >40 μM respectively. These mannose-specific lectins are serologically identical, but differ in the number of subunits per protein molecule; ASA is a dimer, NPA is a trimer and GNA is a tetramer. The results obtained support the hypothesis, that the effectiveness of the mannose-binding lectins as antimetabolites is determined by the number of subunits per molecule. Two N-acetylglucosamine binding lectins, the dimeric Oryza sativa agglutinin (OSA) and the monomeric Urtica dioica agglutinin (UDA), were also tested but at a concentration of 0.1% w/v exhibited no significant antimetabolic effect towards BPH, although the related lectin wheatgerm agglutinin (WGA) has previously been demonstrated to be toxic towards the insect.     

An ultrastructural search for lectin-binding sites on surfaces of spinach leaf organelles

Organelles isolated from leaves of spinach (Spinacia oleracea L.) were prefixed in glutaraldehyde and then incubated with ferritin conjugates of four lectins — Concanavalin A (Con A), Ricinus communis L. agglutinin, MW 120,000 (RCA), soybean agglutinin (SBA), and wheat germ agglutinin (WGA) — in order to probe their cytoplasmic surfaces for saccharide residues. In each case the major leaf organelles, including microbodies, mitochondria and chloroplast derivatives, failed to exhibit labeling when examined with the electron microscope. Tobacco (Nicotiana tabacum L.) leaf protoplasts, incubated simultaneously with and under identical conditions to the spinach organelles, showed specific labeling of their plasma membranes with all four lectin conjugates, thus establishing the efficacy of the procedure for demonstrating the presence of binding sites when they exist. Further attempts to show binding of one of the lectins, Con A, by labeling with fluorescein-Con A and by organelle agglutination, yielded results consistent with the absence of ultrastructural labeling. It is concluded that no saccharide residues recognized by the four lectins are present on the cytoplasmic surfaces of organelles and that those residues reported to be constituents of intracellular membranes, therefore, are most likely exposed on the luminal (extracytoplasmic) surfaces.Abbreviations Con A Concanavalin A - RCA Ricinus communis agglutinin, MW 120,000 - SBA soybean agglutinin - WGA wheat germ agglutinin     

Two-step one-dimensional SDS-PAGE analysis of LMW subunits of glutelin

Summary Analysis of intergeneric substitution lines in hexaploid wheats by a two-step electrophoretic method of protein separation revealed that low-molecular-weight (LMW) subunits of glutelin in Triticum longissimum, T. Umbelullatum, Elytrigia elongata (2 x) were controlled by chromosomes/chromosome arms 1S ^l , 1U, and 1ES, respectively. A LMW glutelin band in Secale montanum was detected but its chromosomal location could not be determined. Genes controlling gliadins and HMW subunits of glutelin were also located on chromosome 1S ^l in T. longissimum.The term glutelin refers to the polymeric prolamins of cereals, e.g., glutenins in wheat, HMW, and 75-k secalins in rye     

The seed lectins of black locust (robinia pseudoacacia) are encoded by two genes which differ from the bark lectin genes

Two lectins were isolated from Robinia pseudoacacia (black locust) seeds using affinity chromatography on fetuin-agarose, and ion exchange chromatography on a Neobar CS column. The first lectin, R. pseudoacacia seed agglutinin I, referred to as RPsAI, is a homotetramer of four 34 kDa subunits whereas the second lectin, referred to as RPsAII, is composed of four 29 kDa polypeptides. cDNA clones encoding the polypeptides of RPsAI and RPsAII were isolated and their sequences were determined. Both polypeptides are translated from mRNAs of ca. 1.2 kb encoding a precursor carrying a signal peptide. Alignment of the deduced amino acid sequences of the different clones indicates that the 34 and 29 kDa seed lectin polypeptides show 95% sequence identity. In spite of this striking homology, the 29 kDa polypeptide has only one putative glycosylation site whereas the 34 kDa subunit has four of these sites. Carbohydrate analysis revealed that the 34 kDa possesses three carbohydrate chains whereas the 29 kDa polypeptide is only partially glycosylated at one site. A comparison of the deduced amino acid sequences of the two seed and three bark lectin polypeptides demonstrated unambiguously that they are encoded by different genes. This implies that five different genes are involved in the control of the expression of the lectins in black locust.Abbreviations LECRPAs cDNA clone encoding Robinia pseudoacacia seed lectin - LoLI Lathyrus ochrus isolectin I - PsA Pisum sativum agglutinin - RPbAI Robinia pseudoacacia bark agglutinin I - RPbAII Robinia pseudoacacia bark agglutinin II - RPsAI Robinia pseudoacacia seed agglutinin I - RPsAII Robinia pseudoacacia seed agglutinin II     

Lectin-induced alterations on the proliferation of three human prostatic cancer cell lines

Summary While lectins are known to influence the cell growth of several types of normal and neoplastic tissues, their roles in the case of prostatic cancer cells remain relatively unexplored. In the present work, we report thein vitro influence of five lectins, namely peanut (PNA), wheat germ (WGA), Concanavalin A (Con A),Griffonia simplicifolia (GSA-IA₄), andPhaseolus vulgaris (PHA-L) agglutinins, on the cell proliferation of one androgen-sensitive (LNCaP) and two androgen-insensitive (PC-3 and DU 145) human prostatic cancer cell lines cultured in either 10% or 1% fetal bovine serum (FBS)-supplemented media. The cell proliferation was assessed by means of the colorimetric 3-(4,5-dimethythiazol-2-yle)2,5-diphenyltetrazolium bromide. (MTT) assay. Four lectin concentrations were tested (i.e., 0.1, 1, 10, and 100 μg/ml) at five experimental states (i.e., 2, 3, 5, 7, and 9 d following the addition of each lectin to the culture media). Our results demonstrated that the five lectins under study had a globally significant dose-dependent toxic effect on prostatic cancer cell proliferation. Nevertheless, low doses of GSA-IA₄ and PHA-L significantly (P<0.05 toP<0.001) increased the cell proliferation of confluent PC-3 cells. Increasing the FBS from 1% to 10% in the culture media significantly antagonized lectin-induced toxicity in the three prostatic cell lines. In conclusion, the present data strongly suggest that some lectins might influence the proliferation of prostatic carcinoma cells. In addition, because lectins are present in our diet, and are able to pass into the systemic circulation and thus reach the prostate, the present results suggest that some lectins might exert an influence on prostate cancer growth under clinical conditions.     

Hyphal walls of isolated lichen fungi

The hyphal walls of three mycobionts, isolated from the lichens Xanthoria parietina, Tornabenia intricata and Sarcogyne sp. were investigated by two techniques: microautoradiography of fungal colonies exposed to radioactive carbohydrate precursors; and binding, in vivo, of fluorescein conjugated lectins to hyphal walls of such colonies.N-[³H] acetylglucosamine was readily incorporated into tips, young hyphal walls and septa of the three mycobionts and the free-living fungus Trichoderma viride, but not into Phytophthora citrophthora, indicating that chitin is a major component of the mycobionts' hyphal walls. All three mycobionts, but neither of the free-living fungi, incorporated [³H] mannose and [³H] mannitol into their hyphal walls.Fluorescein-conjugated wheat germ agglutinin was bound to the hyphal walls of the three mycobionts and T. viride, but not to the walls of P. citrophthora; the binding pattern was similar to the grain pattern obtained in autoradiographs after short N-[³H] acetylglucosamine labelling. As wheat germ agglutinin binds specifically to chitin oligomers, the lectin binding tests further confirmed that chitin is a mycobiont hyphal wall component.Binding characteristics of several fluorescein-conjugated lectins to the three mycobionts indicated that this technique can yield useful information concerning the chemical composition of hyphal wall surfaces.List of abbreviations FITC fluorescein isothiocyanate - WGA wheat germ agglutinin - TCA trichloroacetic acid - PNA peanut agglutinin - LA lotus agglutinin - Glc NAc N-acetylglucosamine - ConA concanavalin A - SBA soybean agglutinin - WBA waxbean agglutinin Part of an M.Sc. thesis submitted by A. Braun to the Department of Botany, Tel Aviv University.     

Induction of recombination between rye chromosome 1RL and wheat chromosomes

Summary The ph1b mutant in bread wheat has been used to induce homoeologous pairing and recombination between chromosome arm 1RL of cereal rye and wheat chromosome/s. A figure of 2.87% was estimated for the maximal frequency of recombination between a rye glutelin locus tightly linked to the centromere and the heterochromatic telomere on the long arm of rye chromosome 1R in the progeny of ph1b homozygotes. This equates to a gametic recombination frequency of 1.44%. This is the first substantiated genetic evidence for homoeologous recombination between wheat and rye chromosomes. No recombinants were confirmed in control populations heterozygous for ph1b. The ph1b mutant was also observed to generate recombination between wheat homoeologues.     

Molecular cloning of the lectin and a lectin-related protein from common Solomon's seal (Polygonatum multiflorum)

The most prominent protein ofPolygonatum multiflorum (common Solomon's seal) rhizomes has been identified as a mannose-binding lectin. Analysis of the purified lectin demonstrated that it is a tetramer of four identical subunits of 14 kDa. Molecular cloning further revealed that the lectin from this typical Liliaceae species belongs to the superfamily of monocot mannose-binding proteins. Screening of cDNA libraries constructed with RNA isolated from buds, leaves and flowers ofP. multiflorum also yielded cDNA clones encoding a protein, which contains two tandemly arranged domains with an obvious sequence homology to the mannose-binding lectins. Molecular modelling of thePolygonatum lectin and lectin-related protein indicated that the three-dimensional structure of both proteins strongly resembles that of the snowdrop lectin. In addition, this approach suggested that the presumed carbohydrate-binding sites of the lectin can accommodate a mannose residue whereas most of the carbohydratebinding sites of the lectin-related protein cannot.Abbreviations GNA Galanthus nivalis agglutinin - HCA hydrophobic cluster analysis - LECPMA cDNA clone encoding PMA - PM30 30 kDa protein isolated fromPolygonatum multiforum - PMA Polygonatum multiflorum agglutinin - PMLRP Polygonatum multiflorum lectin-related protein     

Cloning and characterization of the lectin cDNA clones from onion,shallot and leek

Characterization of the lectins from onion (Allium cepa), shallot (A. ascalonicum) and leek (A. porrum) has shown that these lectins differ from previously isolated Alliaceae lectins not only in their molecular structure but also in their ability to inhibit retrovirus infection of target cells.cDNA libraries constructed from poly(A)-rich RNA isolated from young shoots of onion, shallot and leek were screened for lectin cDNA clones using colony hybridization. Sequence analysis of the lectin cDNA clones from these three species revealed a high degree of sequence similarity both at the nucleotide and at the amino acid level.Apparently the onion, shallot and leek lectins are translated from mRNAs of ca. 800 nucleotides. The primary translation products are preproproteins (ca. 19 kDa) which are converted into the mature lectin polypeptides (12.5–13 kDa) after post-translational modifications.Southern blot analysis of genomic DNA has shown that the lectins are most probably encoded by a family of closely related genes which is in good agreement with the sequence heterogeneity found between different lectin cDNA clones of one species.     

Studies on growth inhibition by lectins of penicillia and aspergilli

It has previously been shown in our laboratory that wheat germ agglutinin (WGA) binds to Trichoderma viride and inhibits growth of this fungus. Here we report on the effect of WGA, soybean agglutinin (SBA) and peanut agglutinin (PNA) on Penicillia and Aspergilli. Binding of the lectins to the fungi was examined with the aid of their fluorescein isothiocyanate (FITC) conjugated derivatives. FITC-WGA bound to young hyphal walls of all species, in particular to the hyphal tips and septa, in agreement with the chitinous composition of the cell walls of the two genera. Hyphae of all species examined were labelled, though in different patterns, by FITC-SBA and FITC-PNA, suggesting the presence of galactose residues on their surfaces. Young conidiophores, metulae (of the Penicillia), vesicles (of the Aspergilli), sterigmata and young spores, were also labelled. The three lectins inhibited incorporation of [³H]acetate, N-acetyl-D-[³H]glucosamine and D-[¹⁴C]galactose into young hyphae of Aspergillus ochraceus, indicating interference with fungal growth. Inhibition of spore germination by the three lectins was also observed. Preincubation of the lectins with their specific saccharide inhibitors prevented binding and the inhibitory effects. We conclude that lectins are useful tools for the study of fungal cell surfaces, and may also serve as an important aid in fungal classification. The present findings also support the suggestion that one role of lectins in plants is protection against fungal pathogens.Abbreviations Con A concanavalin A - PNA peanut agglutinin - SBA soybean agglutinin - WGA wheat germ agglutinin - FITC fluorescein isothiocyanate - GlcNAc N-acetyl-D-glucosamine - GalNAc N-acetyl-D-galactosamine     

Lectin binding sites during Drosophila embryogenesis

The spectrum of lectin binding sites as it emerges during embryonic development of Drosophila was analysed by means of fluorescein-labelled lectins. As development and morphogenesis proceed, the reaction pattern becomes more and more complex. Mannose/glucose-, mannose-, N-acetylglucosamine- and poly-N-ace-tylglucosamine-specific lectins bind ubiquitously. Nuclear envelopes only have binding sites for wheat germ agglutinin. N-acetylgalactosamine-binding lectins are specific for ectodermal derivatives. Ga-3-N-acetylgalac-tosamine-binding lectins are highly selective markers for neural structures, haemocytes and Garland cells. It is also shown that Drosophila laminin is differentially glycosylated. The possible implications of differential and germ layer-specific glycosylation are discussed.Dedicated to the memory of Jan Callaerts     

Determination of endogenous abscisic acid levels in immature cereal embryos during in vitro culture

Levels of endogenous abscisic acid (ABA) in immature wheat (Triticum aestivum cv. Timmo) and barley (Hordeum vulgare cv. Golden Promise) embryos have been determined by enzyme-linked immunosorbent assay. Embryos of both cereal species showed an increase in ABA content during development on the parent plant. Immature embryos were excised and cultured in vitro on nutrient media that led to precocious germination or on media containing 9% (w/v) mannitol that maintained their developmental arrest. Barley and wheat embryos responded to these culture conditions in an identical manner with respect to changes in morphology, fresh weight, protein and lectin content. However, in complete contrast, the ABA content of barley embryos increased by an order of magnitude during culture on mannitol, whereas that of wheat embryos showed no significant change. The results are discussed within the context of the role of ABA in the regulation of embryo development.Abbreviations ABA abscisic acid - BGA barley-germ agglutinin - dpa days post anthesis - ELISA enzyme-linked immunosorbent assay - GC-MS gas chromatography-mass spectrometry - WGA wheat-germ agglutinin     

Biosynthesis of lectin in roots of germinating and adult cereal plants

Root tips of wheat, rye, barley and rice seedlings contain lectins which are identical to the respective embryo lectins with respect to their molecular weight, sugar-specificity and serological properties. Using in vivo labelling techniques, it could be demonstrated that lectin is synthesized de novo in these tissues. The presence of lectin mRNA in seedlings was confirmed by in-vitro synthesis of lectin in root-tip extracts. Lectin synthesis occurs both in primary and first adventitious roots and is confined to the apical part (2mm) of the root. As seedling development proceeds, lectin synthesis in root tips gradually decreases. Adventitious roots of adult (five to six months old) wheat, rye and barley, but not rice, plants also contain lectins which are indistinguisable from the embryo lectins by the above-mentioned criteria. These lectins are synthesized in vivo in isolated root tips (5 mm) with labelled cysteine and in vitro in cell-free extracts prepared from root tips. Synthesis of lectin in roots of adult plants is also confined to the apical (2 mm) tip of the roots. At the molecular level, root lectin synthesis is very similar to that in embryos. All root lectins are synthesized as 23 000-M_r precursors which are post-translationally converted into the mature 18 000-M_r polypeptides. The observation that seedling roots and adventitious roots of six-month-old plants actively synthesize lectins strongly indicates that lectin genes are expressed in these tissues. In addition, since the root lectins are indistinguishable from the embryo lectins, we postulate that the same lectin genes are expressed.Abbreviations ABA abscisic acid - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - WGA wheat-germ agglutinin