Nickel requirement for the formation of active urease in purple sulfur bacteria (Chromatiaceae)

Nickel was found to be required for expression of urease activity in batch cultures of Thiocapsa roseopersicina strain 6311, Chromatium vinosum strain 1611 and Thiocystis violacea strain 2311, grown photolithotrophically with NH₄Cl as nitrogen source. In a growth medium originally free of added nickel and EDTA, the addition of 0.1–10 M nickel chloride caused an increase in urease activity, while addition of EDTA (0.01–2 mM) caused a strong reduction. Variation of the nitrogen source had no pronounced influence on the level of urease activity in T. roseopersicina grown with 0.1 M nickel in the absence of EDTA. Only nickel, of several heavy metal ions tested, could reverse suppression of urease activity by EDTA. Nickel, however, did not stimulate and EDTA did not inhibit the enzyme in vitro. When nickel was added to cultures already growing in a nickel-deficient, EDTA-containing medium, urease activity showed a rapid increase which was not inhibited by chloramphenicol. It is concluded that the (inactive) urease apoprotein may be synthesized in the absence of nickel and can be activated in vivo without de novo protein synthesis by insertion of nickel into the pre-formed enzyme protein.     

The inheritance of a urease-null trait in soybeans

Summary Four soybean seed urease nulls (lacking both the activity and antigen of the embryo-specific urease) were intermated and the F₁ and F₂ seed examined for urease activity. Both generations were without urease activity, and the nulls were therefore considered noncomplementing. In crosses of each null line to cultivars homozygous for the allelic, codominantly inherited urease slow or fast isozyme, the F₁ seed expressed the embryo-specific urease isozyme of the urease-expressing parent. A 3 1 segregation for presence and absence of urease was observed in progeny from F₁ and heterozygous F₂ plants. The F₂ and F₃ from fastXnull combinations revealed that urease-positive seed were all phenotypically urease fast, while the same seed from slowXnull combinations showed a segregation of one seed containing a fast urease, either exclusively or in a heterozygous state with the slow isozyme, for every 69 phenotypic slows. Data pooled from F₂ plants which segregate for both the presence (Sun) and absence (Sun) of urease and for the fast (Eu1-b) or slow (Eu1-a) urease allele indicate that the null lesion (Sun) is linked to Eu1 by approximately one map unit. The evidence is consistent with two models: (1) sun is an allele at the embryo-specific urease isozyme locus (Eu1) and that a high degree of exchange (and/or conversion) within the locus results in a 1% recombination frequency between the null trait and urease allozyme; (2) sun is at a distinct locus which is separated by one map unit from the embryo-specific urease isozyme locus (Eu1) upon which it acts in the cis position. Polyadenylated embryo RNA from one of the null lines, PI 229324, exhibited no urease template activity in vitro. Thus, the lack of urease antigen is due to lack of accumulation of translatable urease mRNA. The availability of soybeans lacking seed urease should be extremely useful to breeders as a trait for linkage studies and to geneticists as a transformation marker.Portions of this work were funded by the Illinois and Missouri Agricultural Experiment Stations, the SOHIO-University of Illinois Center of Excellence in Crop Molecular Genetics and Genetic Engineering and by grants PCM-8219652 from the National Science Foundation and USDA/SEA-CRCR-1-1374 from the USDA Competitive Grants Office     

Inhibition of plant and microbial ureases by phosphoroamides

Enzyme kinetic studies of inhibition of plant (jackbean) and microbial (Bacillus pasteurii) ureases by eight phosphoroamides [phenylphosphorodiamidate, 4-chlorophenylphosphorodiamidate, phosphoric triamide, N-(diaminophosphinyl)benzamide, N-(diaminophosphinyl)benzeneacetamide, 4-chloro-N-(diaminophosphinyl)benzamide, N-(4-nitrophenyl)phosphoric triamide, N-(diaminophosphinyl)-3-pyridinecarboxamide] demonstrated that these compounds are slow, tight-binding inhibitors of urease enzymes. Measurement of the dissociation constants (Ki^*) of the enzyme-inhibitor complexes (E · I^*) formed by interaction of the ureases and phosphoroamide inhibitors studied showed that these inhibitors had a much higher affinity (i.e., a lower Ki^*) for plant urease than for microbial urease. Measurement of rate constants for formation (k_on) and decay (k_off) of E · I^* showed that, whereas k_on varied greatly with the different inhibitors and ureases, k_off was constant for the phosphoroamides tested and had a characteristic value for each urease. The half-life of E · I^* (30°C; pH 7 THAM buffer) for the plant urease was much longer than that for the microbial urease, and this difference largely accounted for the much higher values of Ki^* (k_off/k_on) observed with microbial urease.     

Mycobacterium leprae binds to a major human peripheral nerve glycoprotein myelin P zero (P0)

We have previously shown that a major phosphorylated 25-kDa glycoprotein of the human peripheral nerve binds to Mycobacterium leprae. In the present study, we confirm that the 25-kDa glycoprotein of the human peripheral nerve is myelin P zero (P₀) by immunoprecipitation and Western blot experiments using monoclonal antibodies to myelin P₀. Immunohistochemical studies on human nerve using these antibodies to myelin P₀ exhibited a strong immunoreactivity to the myelin and Schwann cells. Myelin P₀ is a peripheral nerve specific protein; therefore it could likely be one of the key target molecules for M. leprae binding/internalization or even contact-dependent demyelination. This finding of M. leprae binding to myelin P₀ adds to the present understanding on neural predilection of M. leprae.     

Intracellular distribution of heat-induced stress glycoproteins

Cellular heat stress results in elevated heat-shock protein (HSP) synthesis and in thermotolerance development. Recently, we demonstrated that protein glycosylation is also an integral part of the stress response with the identification of two major stress glycoproteins, GP50, associated with thermotolerance, and P-SG67, the “prompt” stress glycoprotein induced immediately during acute heat stress. In the present study, we characterized the subcellular location and redistribution of these proteins during the cellular injury and recovery phase. In unheated and heated CHO cells, both stress glycoproteins were present in each subcellular fraction isolated by differential centrifugation. However, the subcellular redistribution in the course of cellular recovery after heat stress was specific for each stress glycoprotein. GP50 was present in all subcellular fractions before heat stress, but showed relatively little redistribution after heat stress. By 24 h of recovery following stress, GP50 showed partial depletion from lysosomes and microsomes, and was mainly present in the mitochondria. Glycosylated P-SG67 was redistributed in a more complex fashion. It was seen predominantly in the lysosomes and microsomes immediately following heat-stress, but after 6 h of recovery following heat stress, it largely disappeared from the microsomes and was present mainly in the cytosol. By 24 h of recovery following heat stress, it was found predominantly in the nucleus-rich fraction and mitochondria. The localization of GP50 and P-SG67 by subcellular fractionation is consistent with immunolocalization studies and contrasts with the translocation of HSP70 after heat stress from cytosol to nuclei and nucleoli. These results reflect a characteristic distribution for each stress glycoprotein; their presence in virtually all subcellular fractions suggests multifunctional roles for the various stress glycoproteins in the cellular heat stress response. J. Cell. Biochem. 66:98–111, 1997. © 1997 Wiley-Liss, Inc.     

Immobilization of soybean (Glycine max) urease on alginate and chitosan beads showing improved stability: Analytical applications

The soybean (Glycine max) urease was immobilized on alginate and chitosan beads and various parameters were optimized and compared. The best immobilization obtained were 77% and 54% for chitosan and alginate, respectively. A 2% chitosan solution (w/v) was used to form beads in 1N KOH. The beads were activated with 1% glutaraldehyde and 0.5 mg protein was immobilized per ml of chitosan gel for optimum results. The activation and coupling time were 6 h and 12 h, respectively. Further, alginate and soluble urease were mixed to form beads and final concentrations of alginate and protein in beads were 3.5% (w/v) and 0.5 mg/5 ml gel. From steady-state kinetics, the optimum temperature for urease was 65 °C (soluble), 75 °C (chitosan) and 80 °C (alginate). The activation energies were found to be 3.68 kcal mol⁻¹, 5.02 kcal mol⁻¹, 6.45 kcal mol⁻¹ for the soluble, chitosan- and alginate-immobilized ureases, respectively. With time-dependent thermal inactivation studies, the immobilized urease showed improved stability at 75 °C and the t_1/2 of decay in urease activity was 12 min, 43 min and 58 min for soluble, alginate and chitosan, respectively. The optimum pH of urease was 7, 6.2 and 7.9 for soluble, alginate and chitosan, respectively. A significant change in K_m value was noticed for alginate-immobilized urease (5.88 mM), almost twice that of soluble urease (2.70 mM), while chitosan showed little change (3.92 mM). The values of V_max for alginate-, chitosan-immobilized ureases and soluble urease were 2.82 × 10² μmol NH₃ min⁻¹ mg⁻¹ protein, 2.65 × 10² μmol NH₃ min⁻¹ mg⁻¹ protein and 2.85 × 10² μmol NH₃ min⁻¹ mg⁻¹ protein, respectively. By contrast, reusability studies showed that chitosan–urease beads can be used almost 14 times with only 20% loss in original activity while alginate–urease beads lost 45% of activity after same number of uses. Immobilized urease showed improved stability when stored at 4 °C and t_1/2 of urease was found to be 19 days, 80 days and 121 days, respectively for soluble, alginate and chitosan ureases. The immobilized urease was used to estimate the blood urea in clinical samples. The results obtained with the immobilized urease were quite similar to those obtained with the autoanalyzer^®. The immobilization studies have a potential role in haemodialysis machines.     

The vacuolar localization of basic isoperoxidases in grapevine suspension cell cultures and its significance in indole-3-acetic acid catabolism

The study of the subcellular localization of the basic isoperoxidases in grapevines was carried out by using cells cultured in suspension as a model system. Results from subcellular fractionation, isoenzyme analysis, enzyme binding and cytochemical probes suggest that basic isoperoxidases are localized mainly in the vacuolar sap of the suspension cultured cells, probably in equilibrium with a pool of the same basic isoperoxidases bound to the internal face of tonoplast membranes through a Ca²⁺-saline bridge. This vacuolar location of basic isoperoxidases raised the question of their function, since indole-3-acetic acid (IAA) oxidase activity of these isoperoxidases is almost totally inhibited by vacuolar anthocyanins in the in vivo concentration range of these compounds. Thus, a central role is proposed for these isoenzymes in the H₂O₂-dependent oxidative phenol metabolism which occurs in grapevines, discarding therefore a possible role of these isoperoxidases in the control of IAA levels during the later stages of development of anthocyanin-rich grapes.     

Characterization of urease from Sporosarcina ureae

Alkaline stable (pH 7.75–12.5) urease from Sporosarcina ureae was purified over 400-fold by ion exchange and hydrophobic interaction chromatography. The cytoplasmic enzyme was remarkably active with a specific activity of greater than 9300 μmol urea degraded min^-1 mg protein^-1 at pH 7.5, where it has optimal activity. Although S. ureae is closely related to Bacillus pasteurii, known to posses a homopolymeric urease containing 1 nickel per subunit [M _r=65000], the S. ureae enzyme is comprised of three subunits [apparent M _r=63100 (α), 14500 (β), and 8500 (γ)] in an estimated ∝βγ stoichiometry and contains 2.1±0.6 nickel ions per ∝βγ unit as measured by atomic absorption spectrometry. Stationary phase cultures sometimes possessed low levels of urease activity, but the specific activity of cell extracts of partially purified urease preparations from such cultures could be elevated by heat treatment, dilution, or dialysis to values comparable to those observed in samples from exponentially grown cells.     

Pregnancy-associated changes in oligomannose oligosaccharides of human and bovine uromodulin (Tamm-Horsfall glycoprotein)

The urinary glycoprotein uromodulin (Tamm-Horsfall glycoprotein) exhibits a pregnancy-associated ability to inhibit antigen-specific T cell proliferation, and the activity is associated with a carbohydrate moiety [Muchmore and Decker (1985) Science 229:479–81; Hessionet al., (1987) Science 237:1479–84; Muchmore, Shifrin and Decker (1987) J Immunol 138:2547–53]. We report here that the Man₆₍₇₎GlcNAc₂-R glycopeptides derived from uromodulin inhibit antigen-specific T cell proliferation by 50% at 0.2–2 M, and further studies, reported elsewhere, confirm that oligomannose glycopeptides from other sources are also inhibitory, with Man₉GlcNAc₂-R the most inhibitory of those tested [Muchmoreet al., J Leukocyte Biol (in press)]. In this work, we have extended the observation of pregnancy-associated inhibitory activity to a second species, and have compared the oligomannose profile of Tamm-Horsfall glycoprotein (nonpregnant) with that of uromodulin (pregnant) derived from both human and bovine sources. Surprisingly, there was a pregnancy-associated decrease in the total content of oligomannose chains due predominantly to a reduction in Man₅GlcNAc₂-R and Man₆GlcNAc₂-R. Man₇GlcNAc₂-R, which did not decrease with pregnancy, comprised a significantly greater proportion of the total oligomannose chains in pregnant vs. nonpregnant samples from both species (human; 34.6% vs. 25.9%: bovine; 14.4% vs. 7.2%).     

Molecular differentiation in pea powdery-mildew haustoria

Monoclonal antibodies have been raised against haustorial complexes isolated from pea (Pisum sativum L.) leaves infected by the biotrophic powdery mildew fungus Erysiphe pisi D.C. Immuno-localisation studies, using isolated haustorial complexes and infected pea leaf material, have shown that one of the antibodies, designated UB7, binds to fungal wall and plasma membranes present in both haustoria and mycelia. However, a second antibody, UB8, binds specifically to the haustorial plasma membrane, and does not label fungal plasma membranes in mycelia. Western blotting and antigen-modification techniques have shown that UB8 recognises a protein epitope of a 62-kDa antigen. A reduction in molecular weight of this component after endo-F treatment indicates that the antigen is an N-linked glycoprotein. UB7 also recognises a 62-kDa glycoprotein, which is susceptible to endo-F treatment, and the antibody binds to a carbohydrate epitope. Differences in molecular weights of the products after endo-F treatment of antigens show that the 62-kDa glycoproteins recognised by the antibodies are distinct molecules, in accordance with the localisation results. Overall, the results provide evidence for molecular differentiation associated with the development of haustoria in a biotrophic infection.Abbreviations ehm extrahaustorial membrane - ELISA enzyme-linked immunosorbent assay - HC haustorial complex - hpm haustorial plasma membrane - IIF indirect immunofluorescence - MAb monoclonal antibody - M_r apparent molecular weight - PMSF phenylmethylsulfonyl fluoride - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis We thank Mr. D. Mills and Mr. P. Stanley for help with the EM immunogold techniques. This work was supported by an Agricultural and Food Research Council grant and a studentship from the Science and Engineering Research Council.     

Immobilization of watermelon (<Emphasis Type="Italic">Citrullus vulgaris</Emphasis>) urease in agarose gel for urea estimation

Urease from dehusked seeds of watermelon was immobilized in 1.5% agarose gel with 53.9% entrapment. There was negligible leaching (<10% at 4°C) and the same gel membrane could repeatedly be used for seven days. The immobilization exhibited no apparent change in the optimum pH but there was a significant decrease in the optimum temperature (50°C as compared to 65°C for soluble urease). The immobilized urease revealed an apparentK _m of 9.3±0.3 mM; 1.2 times lower than the soluble enzyme (11.4±0.2 mM). Unlike soluble enzyme which was inhibited at 200 mM urea, the immobilized urease was inhibited at 600 mM of urea and above, and about 47% activity was retained at 2 M urea. The time-dependent thermal inactivation kinetics at 48 and 52°C was found to be biphasic, in which half of the initial activity was destroyed more rapidly than the remaining half. These gel membranes were also used for estimating the urea content of the blood samples from the University hospital. The results obtained matched well with those obtained by the usual method employed in the clinical pathology laboratory. The significance of these observations is discussed.     

Urease formation in purple sulfur bacteria (Chromatiaceae) grown on various nitrogen sources

Batch cultures of Thiocapsa roseopersicina strain 6311, Thiocystis violacea strain 2311 and Chromatium vinosum strain 1611, grown anaerobically in the light on sulfide with urea, ammonia, N₂ or casein hydrolysate as nitrogen source exhibited urease activity, while Chromatium vinosum strain D neither showed any degradation of urea nor urease activity on any of the nitrogen sources tested.In T. violacea and C. vinosum strain 1611 urease was little affected by the nitrogen source and seemed to be constitutive. In T. roseopersicina, however, the enzyme was repressed by ammonia (although a low basal level of activity remained) and, to a lesser degree, induced by urea: The presense of urea stimulated a temporary increase in urease activity in the early exponential growth phase. The highest activities, however, were found after growth on N₂, and especially on 0.1% casein hydrolysate (in the absence or after exhaustion of external ammonia), but not before the stationary growth phase was reached. Derepressed urease synthesis required an efficient external source of nitrogen.In cultures of T. roseopersicina urease activity showed a periodic oscillation which depended on the repeated feeding with sulfide and subsequent variation in the sulfur content of the cells. The possible reasons of this oscillation are discussed.     

Evidence for carrier-mediated,energy-dependent uptake of urea in some bacteria

Evidence for the existence of an energy-dependent urea permease was found for Alcaligenes eutrophus H16 and Klebsiella pneumoniae M5a1 by studying uptake of ¹⁴C-urea. Since intracellular urea was metabolized immediately, uptake did not result in formation of an urea pool. Evidence is based on observations that the in vivo urea uptake and in vitro urease activity differ significantly with respect to kinetic parameters, temperature optimum, pH optimum, response towards inhibitors and regulation. The K _m for urea uptake was 15–20 times lower (38 M and 13 M urea for A. eutrophus and K. pneumoniae, respectively) than the K _m of urease for urea (650 M and 280 M urea), the activity optimum for A. eutrophus was at pH 6.0 and 35°C for the uptake and pH 9.0 and 65°C for urease. Uptake but not urease activity in both organisms strongly decreased upon addition of inhibitors of energy metabolism, while in K. pneumoniae, potent inhibitors of urease (thiourea and hydroxyurea) did not affect the uptake process. Significant differences in the uptake rates were observed during growth with different nitrogen sources (ammonia, nitrate, urea) or in the absence of a nitrogen source; this suggested that a carrier is involved which is subject to nitrogen control. Some evidence for the presence of an energy-dependent uptake of urea was also obtained in Pseudomonas aeruginosa DSM 50071 and Providencia rettgeri DSM 1131, but not in Proteus vulgaris DSM 30118 and Bacillus pasteurii DSM 33.Non-standard abbreviations CCCP Carbonylcyanide-m-chlorphenylhydrazone - DCCD dicyclohexylcarbodiimide - DNP 2,4-dinitrophenole     

Elicitor induction of the synthesis of a novel lectin-like arabinosylated hydroxyproline-rich glycoprotein in suspension cultures of Phaseolus vulgaris L.

A novel lectin-like glycoprotein which accumulates in response to fungal elicitor action has been characterised in endomembranes from suspension cultures of French bean (Phaseolus vulgaris L.). The lectin, which has specificity towards N-acetylglucosamine oligomers, consists of a polypeptide of apparent molecular weight (M_r) 31 000 which is rich in glycine and contains 6.7% hydroxyproline O-linked to arabinose-containing oligosaccharides to give a glycoprotein of M_r 42500. A dual-labelling technique has been used to identify changes in the synthesis of the glycoprotein in cells exposed to fungal elicitor molecules. Thus, incorporation of [¹⁴C]proline into membranes in vivo and of [1^-3H]arabinose from uridine 5-diphosphate [1^-3H]arabinose in vitro and analysis by isoelectric focussing-polyacrylamide gel electrophoresis gave absolute correspondence of the labelled isoform of the glycoprotein. Having established the absence of contaminating polypeptides, subsequent analysis of microsomal fractions bysodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the peak of sythesis of the M_r-42500 glycoprotein occurred 4 h after the addition of fungal elicitor. The changes in the level of incorporation into the glycoprotein monomers were concomitant with increases in the activity of prolyl hydroxylase (EC 1.14.11.2)Incorporation of [¹⁴C]proline and its subsequent post-translational modification to hydroxyproline in microsomal polypeptides was followed by rapid transfer into the wall with an average t _1/2 of about 7 min. The M_r-42500 glycoprotein was rapidly transferred out of the endomembrane fraction with a t _1/2 of 2 min and could be detected in wall fractions where it became progressively less extractable. The glycoprotein, which clearly differs from bean extensin, accounts for up to 40% of the hydroxyproline newly exported in response to elicitor action. The lectin, which resembles those found in the Solanaceae and which is coinduced with enzymes of phytoalexin synthesis, may play some role in disease resistance.Abbreviations HRGP hydroxyproline-rich glycoprotein - IEF isoelectric focussing - M_r apparent molecular weight - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulphate     

Field detection of urease and carbonic anhydrase activity using rapid and economical tests to assess microbially induced carbonate precipitation

Microbial precipitation of calcium carbonate is a widespread environmental phenomenon that has diverse engineering applications, from building and soil restoration to carbon sequestration. Urease-mediated ureolysis and CO₂ (de)hydration by carbonic anhydrase (CA) are known for their potential to precipitate carbonate minerals, yet many environmental microbial community studies rely on marker gene or metagenomic approaches that are unable to determine in situ activity. Here, we developed fast and cost-effective tests for the field detection of urease and CA activity using pH-sensitive strips inside microcentrifuge tubes that change colour in response to the reaction products of urease (NH₃) and CA (CO₂). The urease assay proved sensitive and useful in the field to detect in situ activity in biofilms from a saline lake, a series of calcareous fens, and ferrous springs, finding relatively high urease activity in lake samples. Incubations of lake microbes with urea resulted in significantly higher CaCO₃ precipitation compared to incubations with a urease inhibitor, showing that the rapid assay indicated an on-site active metabolism potentially mediating carbonate precipitation. The CA assay, however, showed less sensitivity compared to the urease test. While its sensitivity limits its utility, the assay may still be useful as a preliminary indicator given the paucity of other means for detecting CA activity in the field. Field urease, and potentially CA, activity assays complement molecular approaches and facilitate the search for carbonate-precipitating microbes and their in situ activity, which could be applied toward agriculture, engineering and carbon sequestration technologies.     

Synthesis, molecular docking and biological evaluation of metronidazole derivatives as potent Helicobacter pylori urease inhibitors

Fourteen metronidazole derivatives (compounds 3a–f and 4b–h) have been synthesized by coupling of metronidazole and salicylic acid derivatives. All of them are reported for the first time. Their chemical structures are characterized by ¹H NMR, MS, and elemental analysis. The inhibitory activities against Helicobacter pylori urease have been investigated in vitro and many compounds have showed promising potential inhibitory activities of H. pylori urease. The effect of compounds 4b (IC₅₀ = 26 μM) and 4g (IC₅₀ = 12 μM) was comparable with that of acetohydroxamic acid, a well known H. pylori urease inhibitor used as a positive control. The experimental values of IC₅₀ showed that inhibitor was potent urease inhibitor. A docking analysis using the autodock 4.0 program could explain the inhibitory activities of compound 4g against H. pylori urease.     

Differential expression of a hydroxyproline-rich cell-wall protein gene in embryonic tissues of Zea mays L.

A hydroxyproline-rich glycoprotein (HRGP) component of the maize cell wall was shown to be present in different organs of the plant by extraction of cell wall proteins and detection by Western blotting and immunocytochemistry. Antibodies raised against the protein or against synthetic peptides designed from the protein sequence immunoprecipitated a proline-rich polypeptide which was synthesized in-vitro from poly(A) ⁺ RNA extracted from different tissues of the plant and from the complete in-vitro-transcribed mRNA. A very low amount of the protein was found in immature embryos. In particular, the protein could not be detected in the scutellum either by Western blotting or by immunocytochemistry. In agreement with this finding, HRGP mRNA was barely detected in the scutellum, in contrast to its accumulation in the embryo axis. Our results indicate the existence of a unique cell wall structure in embryonic tissues from maize as well as a tissuespecific component of the control of maize HRGP gene expression, distinct to others already described such as cell division.Abbreviations HRGP(s) hydroxyproline-richglycoprotein(s) - DAP days after pollination The present work was supported by grants from Plan Nacional de Investigation Cientifica y Técnica (grant BI088-0242) and European Communities (grant BAP-374). L.R.-A. is the recipient of a fellowship from the Plan Nacional de Formación de Personal Investigador.     

Transient occurrence of lipoxygenase and glycoprotein gp49 in lipid bodies during fat mobilization in anise seedlings

The patterns of lipid-body proteins prepared at different stages of germination from seedlings of anise (Pimpinella ansium L.) were investigated. During the stage of fat mobilization, a set of proteins is synthesized de novo and transferred to existing lipid bodies. Analysis of the protein constituents, detected either by protein staining, concanavalin-A/peroxidase staining or immunoreaction on Western blots showed three distinct protein species: a lipoxygenase firmly integrated into the lipid bodies, a glycoprotein gp50 only extractable from the lipid bodies by treatment with sodium dodecyl sulfate and a glycoprotein gp49 solubilized by diethyl-ether treatment of lipid bodies. Both the lipoxygenase immunodetected on Western blots and gp49 stained with concanavalin-A/ peroxidase conjugate occurred transiently in the lipidbody fraction, reaching maximum concentrations between days 6 and 13 of germination. This behavior was in contrast to the decreasing level of the 18.4-kDa oleosin already present at the beginning of germination.Abbreviations gp glycoprotein - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate We would like to thank Christiane Bernshausen and Willi Jonghaus for kind technical assistance. This research was supported by a grant from the Deutsche Forschungsgemeinschaft. I.F. is a recipient of the Friedrich Ebert-Stiftung.     

Specific binding of a hypersensitive lignification elicitor from Puccinia graminis f. sp. tritici to the plasma membrane from wheat (Triticum aestivum L.)

We have recently reported the isolation and characterization of a glycoprotein (M_r 67 000) from germ-tube walls of Puccinia graminis f. sp. tritici which elicits the cellular hypersensitive lignification response in wheat (G. Kogel et al., 1988, Physiol. Mol. Plant Pathol. 33, 173–185). The present study uses this glycoprotein, referred to as Pgt elicitor, to identify putative elicitor targets in wheat cell membranes. In enzyme-linked immunosorbent assays using anti-Pgt elicitor antibodies, specific binding sites for Pgt elicitor were detected in highly purified plasma-membrane vesicles of wheat (Triticum aestivum L.) primary leaf cells. Binding proved to be independent of the presence or absence in wheat of the Sr5 gene for rust resistance, and also occurred on barley (Hordeum vulgare L.) plasma membrane. The binding sites have an Mr of 30 000 and 33 000, respectively, and binding activity was not lost in the presence of sodium dodecyl sulfate. [¹⁴C]imido-Pgt elicitor was used to determine the apparent K _d value for specific binding, found to be 2.0 M, and the maximum content of binding sites, found to be 250 pmol per mg of plasma-membrane protein. The relevance of the elicitor binding for the outcome of the interaction of P. graminis and wheat is discussed.Abbreviations BSA bovine serum albumin - ELISA enzyme linked immunosorbent assay - IDPase inosine 5-diphosphatase - MPLC medium-pressure liquid chromatography - MF microsomal fraction - Pgt elicitor elicitor of Puccinia graminis f. sp. tritici - SDS sodium dodecyl sulfate - Pre U₃, Pre U₁ pure plasma membrane from wheat cultivar Prelude and plasma membrane contaminated by intracellular membrane, respectively This work was supported by the Deutsche Forschungsgemeinschaft. We wish to thank C. Larsson, Lund, Sweden for his kind support in the preparation of plasma membrane.