Endogenous abscisic acid and wheat germ agglutinin content in wheat grains during development

Abscisic acid (ABA) and wheat germ agglutinin content of immature wheat grains and embryos was determined by immunoassay throughout the development of a field-grown wheat crop ( Triticum aestivum cv. Timmo). Wheat germ agglutinin accumulation in the embryo was not preceded by an increase in endogenous abscisic acid amount or concentration in either embryos or grains. At a later stage in development the endogenous concentration of abscisic acid in both embryos and grains was found to be two orders of magnitude lower than the endogenous levels required to inhibit precocious germination and promote wheat germ agglutinin accumulation in excised embryos cultured in vitro. These findings are discussed in the context of the control of embryo development in vivo by both ABA and the water status of the grain and embryo.     

Non-crystallographic symmetry in the crystal dimer of wheat germ agglutinin

Three isomorphous heavy atom derivatives of wheat germ agglutinin crystals, KAu(CN)₂, K₂Pt(NH₃)₂(NO)₂ and mersalyl, have been examined at high resolution. Heavy atom sites were located from difference Patterson maps in three dimensions at 2.15 Å resolution for the gold and platinum derivatives and with less certainty in the centrosymmetric [010] projection for the mersalyl derivative. These sites are distributed in the crystallographic asymmetric unit such that one half of them can be related to the other half by a 180 ° rotation about an axis parallel to a, and an additional translation of about 6.35 Å along that axis. It is suggested that the two subunits of the wheat germ agglutinin dimer, which represent the asymmetric unit of the C2 unit cell, are related by the same symmetry axis, causing heterologous subunit contacts due to the 6.35 Å translation of one relative to the other subunit.     

Sequence variability in three wheat germ agglutinin isolectins: Products of multiple genes in polyploid wheat

Summary Three highly homologous wheat germ isolectins (95–97%) are distinct gene products in hexaploid wheat. The amino acid sequences of two of these [wheat germ agglutinin 1 (WGA1) and 2 (WGA2)] are compared with sequence date derived from a complementary DNA (cDNA) clone for the third isolection (WGA3). This comparison includes three corrections to earlier amino acid sequences data of both WGA1 and WGA2 at positions 109 (from Ser to Phe), 134 (from Gly to Lys), and 150 (from Gly to Trp). These reassignments are based on new results from crystal structure refinement and amino acid sequence data of WGA1, as well as the recently determined nucleotide sequence of WGA3. In addition, the C-terminal residue of WGA1 has been revised to Gly 171 and now differs from WGA2 (Ala 171). Four other positions, Asn9, Ala53, Gly119, and Ser 123, at which WGA1 and WGA2 are identical but differ from the DNA sequence of WGA3, were also reinvestigated by amino acid sequencing techniques and confirmed.Variability among the three isolectins is observed at a total of 10 sequence positions: 9, 53, 56, 59, 66, 93, 109, 119, 123, and 171. Pairwise comparisons indicate that WGA3 deviates to a much larger extent from WGA1 (at eight positions) and from WGA2 (at seven positions) than the latter from one another (at five positions). Eight of the 10 mutations are equally distributed between domians B and C, the two intrior and more highly conserved of the four WGA domains (A, B, C, D). Correlation of the variable residues with the three-dimensional structure indicates that all except the two previously described B-domain residues, 56 and 59 (Wright and Olafsdottir 1986), are easily accommodated at the dimer surface.WGA3 displays a higher degree of inter-domain similarity than found in WGA1 and WGA2. Of the seven variable positions that are located in the domain core (residues 3–31), five are in perfect agreement with our earlier predicted domain ancestor sequence. This suggests that of the three isolectins WGA3 is most closely related to the common ancestral molecule.     

Effect of temperature shock on the dynamics of abscisic acid and wheat germ agglutinin accumulation in wheat cell culture

Abscisic acid (ABA) and lectin content was immunoassayed in wheat cell cultures affected by temperature stress. The elevated temperature (40°C) resulted in a 7-fold increase in the level of ABA and a 10-fold increase in that of lectin. The increase in the lectin content in cells was preceded by ABA accumulation. It is suggested that this ABA increase induces the synthesis of lectin, which in addition to stress proteins, play an important role in controlling mechanisms of plant adaptation to unfavourable environments.Abbreviations ABA abscisic acid - WGA wheat germ agglutinin     

Surface glycoprotein of human natural killer cells recognized by wheat germ agglutinin

We analyzed surface glycoproteins of human natural killer (NK) cells by utilizing lectins. Among the lectins tested, wheat germ agglutinin (WGA) was found to bind preferentially to CD16(Leu11)-positive lymphocytes as determined by two-colour flow cytometry. Analysis of glycoproteins in the lysate prepared from NK cells with sodium dodecyl sulfate (SDS) gel electrophoresis followed by Western blotting and¹²⁵I labeled WGA staining revealed that a glycoprotein with anM _r of 65 kDa was strongly bound to the lectin, but no corresponding glycoprotein was detected in the lysate of T lymphocytes. This glycoprotein (GP65) gave several spots in the pI range 4.1–4.6 on 2-dimensional gel electrophoresis. Sialidase treatment of GP65 resulted in a single spot on the 2-dimensional gel, suggesting that GP65 is heterogeneous in the degree of sialylation. GP65 was shown to be exposed on the cell surface, since it was radiolabeled with¹²⁵I by the lactoperoxidase-catalyzed method. We next isolated GP65 from human peripheral blood lymphocytes by a combination of chromatography on a cation-exchange column and a WGA-agarose column and preparative SDS gel electrophoresis. It is suggested that GP65 is a novel surface glycoprotein on human NK cells.     

Evolution of the multidomain protein wheat germ agglutinin

Summary We compared the homologous amino acid sequences of hevein and each of the four domains (A, B, C, and D) of wheat germ agglutinin and used them to construct a pseudophylogenetic tree relating these sequences to a hypothetical common ancestor sequence. In the crystal structure of the wheat germ agglutinin dimer, six pseudo-twofold rotational symmetry axes have previously been located in addition to the true twofold axis. Four of these relate two nonidentical domains to each other in each of the four possible pairs constituting the sugar-binding sites (A₁D₂, A₂D₁, B₁C₂, and B₂C₁). The remaining two relate contiguous unique pairs of sugar-binding sites to each other (A₁D₂ to B₁C₂, and A₂D₁ to B₂C₁). These latter two sets of pairs are related to each other by the true twofold axis. Side chains that mediate sugar binding in the interfaces of each of the four pairs were found to be largely conserved. The sequence homology, taken together with these pseudo-symmetry elements in the dimer structure, suggests a pathway for the evolution of the four-domain molecule from a single-domain dimer that can be correlated with simultaneous development of the saccharide-binding sites.     

Wheat germ agglutinin (WGA) gene expression and ABA accumulation in the developing embryos of wheat (Triticum aestivum) in response to drought

Expression of wheat germ agglutinin (WGA) gene inthe developing embryos of wheat (Triticumaestivum L. cv. C-306) was studied in relation toabscisic acid (ABA) accumulation under water stressconditions. Imposition of water stress resulted inelevated ABA levels in the embryos at threedevelopmental stages (18, 24 and 30 DPA). On thecontrary, the effect of drought stress on WGAaccumulation was stage dependent with significantincrease in WGA content being observed at only 24 DPA. Our results suggest that apart from ABA, otherfactors which are temporally expressed, are alsoinvolved in regulation of WGA gene expression.     

Purification and separation of tomato isolectins by chromatofocusing

Tomato lectin can be rapidly separated from a crude extract of tomato fruit proteins by chromatofocusing. The lectin is recovered from a PBE94 column in two peaks, each with a specific activity comparable to that of lectin purified by affinity chromatography on ovomucoid-Sepharose. Both isolectins consist of a single polypeptide chain (Mr 68,000) and have similar properties.     

Wheat germ agglutinin regulates cell division in wheat seedling roots

The mitogenic activity of wheat germ agglutinin (WGA) has been studied in roots of 4-day-old wheat seedlings. WGA had a more pronounced stimulating effect on cell division than the known mitogens concanavalin A and phytohemagglutinin whereas gliadin had no effect. Treatment of wheat seedling roots with exogenous WGA led to the accumulation of indoleacetic acid and cytokinins, hormones that play an important role in the activation of plant cell growth. The data on the combined effect of 24-epibrassinolide and WGA on cell division and accumulation of phytohormones in seedling roots support a possible link between the endogenous WGA level and hormonal regulation of cell division in the root meristem of wheat plants.     

Weak affinity chromatography of small saccharides with immobilised wheat germ agglutinin and its application to monitoring of carbohydrate transferase activity

In this work we have evaluated the potential to use wheat germ agglutinin(WGA) for weak affinity chromatography (WAC) of N-acetyl derivatives ofmono-, di-, tri- and tetrasaccharides. WGA was used as a ligand in a highperformance liquid affinity chromatography (HPLAC) system. Isocraticaffinity chromatography was conducted where similar N-acetyl saccharideswere separated according to their binding strength to WGA. Affinities areweak and lie typically in the mM range. For example, for3sialyllactose, the dissociation constant (K_d) wasfound to be 2.4 mM at 8°C. It was interesting to note that theWGA–HPLC column can distinguish between the anomeric forms ofN-acetylglucosamine. Weak affinity chromatography with immobilised WGA wasused in an enzyme assay to detect the activity of GlcNAc-transferases.     

Surface localization of wheat germ agglutinin and concanavalin A binding sites on normal human blood cells: an ultrastructural histochemical study

In order to determine the extent and variations in surface concavanalin A (CON A) and wheat germ agglutinin (WGA) labeling of different varieties of normal blood cells, gluraraldehyde-fixed human blood cells were exposed to CON A-gold labeled horseradish peroxidase (CON A-HRP-G) and WGA-gold labeled ovomucoid (WGA-OVO-G) histochemical methods. The resultant particulate reaction product permitted assessment of binding and number of gold particles per micrometer of cell surface. Particle counts and data were subjected to statistical analysis. Six subjects (three female and three male) were used and compared in this study. In spite of moderate variations in surface labeling of the various types of leukocytes, erythrocytes and platelets within a given subject, determinations of mean labeling values for similar cell varieties proved quite similar between subjects with the given lectin. WGA and CON A had substantially different labeling densities on the various hemic cells. WGA surface labeling of all types of hemic cells, with the exception of platelets, showed far more labeling than was found with CON A. WGA mean labeling of the grouped subjects was significantly higher for each variety of leukocyte than for either erythrocytes or platelets although this distinction was not always evident in an individual subject. With CON A, mean labeling density for each of hemic cell types showed significant differences between each of the hemic cell varieties. Erythrocytes had only minimal CON A binding while monocyte and platelet populations represented the most reactive of the hemic cells. No difference was noted between corresponding cell varieties in the female vs. male subjects.     

Localization of wheat-germ agglutinin in developing wheat embryos and those cultured in abscisic acid

The time course of appearance of wheat-germ agglutinin (WGA) in the various embryonic tissues during embryogenesis in Triticum aestivum L. was studied by sensitive immunofluorescence and peroxidase-antiperoxidase detection systems. The radicle, root cap and coleorhiza first accumulated WGA in early Stage II (8-10 d post-anthesis) prior to the main period of embryo growth, while WGA was found in the epiblast and coleoptile in early and late State III, respectively. Stage III is characterized by maximum embryo growth, followed by desiccation which occurs in Stage IV. When Stage-II embryos were precociously germinated in the absence of abscisic acid (ABA) no WGA was detected in the coleoptile and epiblast of the young seedlings. In the presence of ABA, Stage-II embryos did not germinate but WGA precociously accumulated in the coleoptile and epiblast. The levels and distribution of WGA in the resulting embryo resembled those in a fully mature, dry embryo (Stage V). Barley possesses a seed lectin similar to WGA, but it is never detected in coleoptiles. Some but not all of the barley cultivars tested were found to accumulate lectin in this organ of mature embryos when treated with ABA. Thus, ABA appears to be involved in the highly regulated temporal and spatial expression of WGA during embryogenesis in cereals.Abbreviations ABA abscisic acid - DIC differential interference contrast - PAP peroxidase-antiperoxidase - WGA wheat-germ agglutinin     

Brefeldin A-regulated retrograde transport into the endoplasmic reticulum of internalised wheat germ agglutinin

The effects of the fungal metabolite brefeldin A (BFA) on the endocytic routes of internalised wheat germ agglutinin (WGA) were studied in human HepG2 hepatoma cells, drawing particular attention to the application times in relation to the membrane dynamics occurring at the trans Golgi face during endocytosis. As shown in previous studies, transport of internalised WGA into the Golgi apparatus can be classified in three stages being characterised by predominance of vesicular endosomes (stage I), formation of an extended endocytic trans Golgi network (stage II) and uptake of WGA into the stacked Golgi cisternae (stage III). BFA treatment of the cells led to rapid tubular-reticular transformations of the Golgi stacks. Retrograde transport and further destinations of internalised WGA depended on the time of BFA application. When BFA was administered during stages I or II, WGA was localised within the BFA-induced tubules and networks, but never was found within the endoplasmic reticulum. By contrast, BFA treatment during stage III led to a redistribution of internalised WGA into cisternae of the endoplasmic reticulum. These results show that BFA administered according to a precise time schedule can be used as a regulatory agent that allows to control retrograde traffic of internalised molecules into the endoplasmic reticulum.     

Isolation and nucleotide sequences of cDNA clones encoding ADP-glucose pyrophosphorylase polypeptides from wheat leaf and endosperm

A cDNA clone (WL : AGA.1) encoding wheat leaf ADP-glucose pyrophosphorylase has been isolated from a gt11 expression library, by immunological screening with anti-spinach leaf ADP-glucose pyrophosphorylase serum. The WL : AGA.1 cDNA is 948 bp long and contains approximately 55% of the complete wheat leaf ADP-glucose pyrophosphorylase mRNA sequence, estimated from Northern blot experiments. A wheat endosperm cDNA library was subsequently constructed in gt11 and six clones hybridising to the cDNA insert of clone WL : AGA.1 were isolated. The longest of these wheat endosperm ADP-glucose pyrophosphorylase cDNAs, clone WE : AGA.7, is nearly full-length (1798 bp), indicated by Northern blot analysis of wheat endosperm mRNA and nucleotide sequence analysis.Southern hybridisation analysis and restriction enzyme mapping indicated that the wheat leaf and wheat endosperm ADP-glucose pyrophosphorylase cDNAs and genes are members of two distinct gene families. In addition, restriction enzyme mapping revealed polymorphism in the wheat endosperm ADP-glucose pyrophosphorylase cDNAs, indicating the existence of at least two wheat endosperm ADP-glucose pyrophosphorylase gene sub-families.Subsequent nucleotide sequence analysis indicates that there is approximately 55% identity between wheat leaf and wheat endosperm ADP-glucose pyrophosphorylase cDNAs. In contrast, members of each sub-family of endosperm cDNA, represented by clones WE : AGA.3 and WE : AGA.7, are 96% identical.     

Amino acid sequence of the N-terminal domain of yam (Dioscorea japonica) aerial tuber acidic chitinase. Evidence for the presence of a wheat germ agglutinin domain in matured acidic chitinase from unstressed tuber

The amino acid sequence of the N-terminal domain of acidic chitinase from unstressed aerial tuber was determined and proved the presence of an N-terminal domain in acidic chitinase. The amino acid sequence was determined on a pyroglutamylaminopeptidase-treated N-terminal fragment of V8 protease and on chymotryptic peptides of this fragment. The sequence determined revealed 8 residues deletion and 2 residues insertion as compared with the N-terminal domain of tobacco basic chitinase. The N-terminal domain determined showed a homology of 40% and 52% with the N-terminal domain of tobacco basic chitinase and wheat germ agglutinin, respectively.Abbreviations DABITC,4-N,N dimethylaminoazobenzene 4-isothiocyanate - PITC phenylisothiocyanate - Cm carboxymethyl - WGA wheat germ agglutinin - TFA trifluoroacetic acid - PGAP pyroglutamylaminopeptidase     

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