Production, characterization, and applications of monoclonal antibodies reactive with soybean nodule xanthine dehydrogenase

Seven monoclonal antibodies were produced against soybean nodule xanthine dehydrogenase, an enzyme involved in ureide synthesis. Specificity of the seven monoclonal antibodies for xanthine dehydrogenase was demonstrated by immunopurifying the enzyme to homogeneity from a crude nodule extract using antibodies immobilized to Sepharose 4B beads. Each monoclonal antibody was covalently bound to Sepharose 4B beads for the preparation of immunoaffinity columns for each antibody. All seven antibodies were found to be of the IgG1,K subclass. A competitive, indirect enzyme-linked immunosorbent assay demonstrated that two of the seven antibodies shared a common epitope while the remaining five antibodies defined unique determinants on the protein. Rapid, large scale purification of active xanthine dehydrogenase to homogeneity was performed by immunoaffinity chromatography. The presence of xanthine dehydrogenase activity and protein in every organ of the soybean plant was determined. Crude extracts of nodules, roots, stems, and leaves cross-reacted with all seven monoclonal antibodies in an indirect enzyme-linked immunosorbent assay. A positive correlation was observed between the degree of cross-reactivity of a given organ and the level of enzyme activity in that organ. These data demonstrate that xanthine dehydrogenase is not nodule specific. Antigenic variability of xanthine dehydrogenase present in crude extracts from nodules of soybean, wild soybean, cowpea, lima bean, pea, and lupin were detected in the indirect enzyme-linked immunosorbent assay which corresponded to six binding patterns for xanthine dehydrogenase from these plant species. These results correspond well with the epitope determination data which showed that the seven antibodies bind to six different binding determinants on the enzyme.     

Pedicel abscission and rachis morphology of soybean as influenced by benzylaminopurine and the presence of pods

The cytokinin 6-benzylaminopurine (BAP) increases pod set of soybean Glycine max (L.) Merr. This study was performed to determine the effect of site and method of BAP application on pedicel abscission and the accompanying changes in rachis anatomy. Spraying racemes with BAP in solution, or applying in a lanolin suspension to proximal nodes on a rachis where proximal pedicels had been excised, delayed pedicel abscission at distal nodes. Applying BAP in lanolin to distal pedicels following flower excision failed to delay their abscission. BAP caused rachis swelling only when pods were present, but BAP could delay pedicel abscission either in the presence or absence of pods. These results suggest that rachis swelling following BAP treatment does not have a causal relationship to a delay or decrease of pedicel abscission.Alabama Agricultural Experiment Station Journal No. 6-912843P.     

Enzymes of ureide synthesis in pea and soybean

Soybean (Glycine max) and pea (Pisum sativum) differ in the transport of fixed nitrogen from nodules to shoots. The dominant nitrogen transport compounds for soybean are ureides, while amides dominate in pea. A possible enzymic basis for this difference was examined.

The level of enzymes involved in the formation of the ureides allantoin and allantoic acid from inosine 5′-monophosphate (IMP) was compared in different tissues of pea and soybean. Two enzymes, 5′-nucleotidase and uricase, from soybean nodules were found to be 50- and 25-fold higher, respectively, than the level found in pea nodules. Other purine catabolizing enzymes (purine nucleosidase, xanthine dehydrogenase, and allantoinase) were found to be at the same level in the two species. From comparison of enzyme activities in nodules with those from roots, stems, and leaves, two enzymes were found to be nodule specific, namely uricase and xanthine dehydrogenase. The level of enzymes found in the bacteroids indicated no significant contribution of Rhizobium japonicum purine catabolism in the overall formation of ureides in the soybean nodule. The presence in the nodules of purine nucleosidase and ribokinase activities makes a recirculation of the ribose moiety possible. In concert with phosphoribosylpyrophosphate synthetase, ribose becomes available for a new round of purine de novo synthesis, and thereby ureide formation.

     

Enzymes of purine catabolism in soybean plants

Remarkable formation and utilization of allantoin is observedin soybean (Glycine max variety A62-1). To study this, variousenzymes involved in purine catabolism (i.e., xanthine oxidase,uricase and allantoinase) were measured in different regionsof soybean plants during development. Uricase, which catalyzesthe direct formation of allantoin from uric acid, was studiedin detail. The activities of these three enzymes were highest in the rootnodules, indicating that the nodules are the major site of allantoinmetabolism. Radicles only showed appreciable activity about80 hr after the seeds were planted. Allantoinase activity wasdetected in all regions tested, showing that allantoin translocatedfrom the nodules can be metabolized in the roots, stem and leaves.In the nodules, xanthine oxidase was localized in the nuclearfraction, while uricase was mainly restricted to the mitochondrialfraction and allantoinase to the soluble fraction. Uricase was partially purified from the nodules and radicles,respectively. The pH optimum of enzyme from the nodules was9.5, whereas that of enzyme from the radicles was 7.0. The enzymefrom the nodules did not require a cofactor, while that fromthe radicles showed an absolute requirement for a cofactor,which was a low molecular substance easily separable from theapoprotein. Thus, the uricase in nodules differs in chemicalproperties from that in the host plant. The results are discussedin relation to change in the allantoin level in soybean tissues. (Received November 1, 1974; )     

Structure of the photosynthetic apparatus of the bean Vicia faba L. when treated with 6-benzylaminopurine

The level of endogenous cytokinins changed with growth and development of faba bean (Vicia faba L.) leaves. Typical of juvenile leaves, amounting to 25% of the final leaf size (Smax) was a low content of these plant hormones. The level of cytokinins increased in growing leaves (50% of Smax) and decreased in the leaves that stopped growing. The content of cytokinins in senescent leaves dropped considerably. Exogenous treatment with 6-benzylaminopurine (BAP) had no effect on the structure of terminal phloem; however, it stimulated elongation of mesophyll cells; increases in the area and thickness of leaf blade, amount of photosynthetic pigments, and assimilation potential; and delayed senescence of leaves and defoliation, thereby increasing biomass of the aboveground plant part. It was inferred that BAP had a potential for induction of photosynthetic apparatus development and increase in the yield of faba bean green mass.     

HORMONAL CONTROL OF ORGANOGENESIS IN OPUNTIA POLYACANTHA (CACTACEAE)

An axillary bud (areole) of Opuntia polyacantha is composed of an extremely short axis which bears highly modified leaves (spines). After producing the spines, the bud apical meristem becomes quiescent. When the axillary bud is excised and cultured with benzylaminopurine (BAP), the apical meristem increases in complexity and produces leaves on an elongated axis. Gibberellic acid (GA) induces spine production with no elongation of the axis. Naphthaleneacetic acid (NAA) causes no structural change in the meristem but induces root formation in adjacent tissue. The initiation of roots, spines, or leaves is visible within three days. Explants on medium lacking hormones show no structural change, but by the tenth day are insensitive to BAP or NAA. These aged explants can be made to respond to BAP or NAA by merely rewounding them at the time of hormone application. With concentrations previously found to be optimal for single hormone responses, NAA in combination with BAP prevents shoot formation, or in combination with GA prevents spine production. When all three hormones are combined, spines are produced, indicating that GA is active morphologically while BAP and NAA counteract each other. If the level of NAA is decreased, BAP counteracts the NAA and also overrides the GA and leafy shoots are produced. By varying the proportions of BAP and GA, in the absence of NAA, four types of lateral appendage can be produced: leaves, mildly altered leaves, leaf-spine transition forms, and spines.     

Effects of Allopurinol [4-Hydroxypyrazolo(3,4-d)Pyrimidine] on the Metabolism of Allantoin in Soybean Plants

Some studies on the effects of xanthine oxidase inhibitor allopurinol [4-hydroxypyrazolo(3,4-d)pyrimidine] on allantoin metabolism of soybean plants (Glycine max cv. Tamanishiki) are reported. Soybean seedlings, aseptically germinated for 96 hours on agar containing 1 millimolar allopurinol, contained only slight amounts of allantoin, allantoic acid, and urea as compared with controls. Analysis of purines and pyrimidines of the allopurinol-treated seedlings showed marked accumulation of xanthine both in the cotyledons and seedling axes. No hypoxanthine accumulation was found. Xanthine accumulation due to allopurinol treatment was relatively low after the cotyledons had fallen. For nodulated plants, allopurinol caused a significant drop in allantoin (+allantoic acid) in the stems and nodules, accompanied by a striking accumulation of xanthine in the nodules. The xanthine concentration in the nodules far exceeded that in the germinated seedlings. Allopurinol at a concentration of 50 micromolar strongly inhibited xanthine oxidase prepared from soybean nodules.

The results suggested that the main pathway of allantoin formation in soybean plants was through purine decomposition, via xanthine-uric acid. It was specially noted that a very active purine-decomposing system existed in soybean nodules.

     

Stimulation of Pod and Ovule Growth of Soybean, Glycine max (L.) Merr. by 6-Benzylaminopurine

Flowers at distal nodes on soybean racemes usually fail to setpods and subsequently abscise. Physiological and histologicalstudies were performed to determine the influence of 6-benzylaminopurine(BAP) on distal pod development. The pedicels of fully openedflowers on terminal racemes of field-grown IX93-100 soybeanplants were treated three times with 200 mg kg^-1 BAP in lanolinover a 6-d period. Racemes were then excised and ³²P uptakewas recorded for each flower position within a raceme; histologicalfeatures of pedicels and ovules also were determined. Applicationof BAP increased pod and ovule length, width and weight at allfour distal nodes (D, D-1, D-2, D-3) relative to controls treatedwith lanolin. Length and width of parietal endosperm cells weresmaller in BAP-treated ovules at the most proximal node beingstudied (D-3), and greater numbers of parietal endosperm cellswere observed at D-1 and D-3 nodes when compared to lanolincontrols. Smaller amounts of starch were found in suspensorcells, endosperm, and integuments of lanolin-treated ovules,and starch depletion over time was observed within starch sheathsof pedicels from lanolin-treated pods when compared to BAP-treatedtissues. BAP-treated racemes had more ³²P uptake at the fourmost distal nodes. A higher rate of uptake (cpm mg^-1 f. wt)was evident in ovules than in ovary tissues. These results suggestthat for racemes otherwise destined to abscise, applicationof BAP promotes pod set and growth by stimulating ovule development.Copyright1993, 1999 Academic Press Pod, ovule soybean, abscission, 6-benzylaminopurine     

Correlation of cotyledonary node shoot proliferation and somatic embryoid development in suspension cultures of soybean (Glycine max L. Merr.)

Suspension cultures of soybean were initiated from hypocotyl or cotyledon callus tissue of several soybean genotypes. When these were grown on L2 medium with 0.4 mg/liter 2,4-D several genotypes produced numerous embryoids while others produced only a few such structures. Due to internal anatomy, no embryoid developed into a complete plant. A genotype's propensity to form normal appearing embryoids was correlated with the ability to proliferate shoots at the cotyledonary node on a medium with benzylaminopurine as determined in previous testing.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - BAP Benzylaminopurine - L2 Phillips and Collins (1979) legume medium     

Intercellular nodule localization and nodule specificity of xanthine dehydrogenase in soybean

The distribution of xanthine dehydrogenase throughout the soybean plant as well as the intercellular localization of xanthine dehydrogenase within soybean nodules was determined. Polyclonal antibodies against purified xanthine dehydrogenase were prepared and used in an enzymelinked immunosorbent assay to determine whether xanthine dehydrogenase is a nodule-specific protein. This immunological assay showed that xanthine dehydrogenase is present in far greater concentration in the nodule than in any other plant organ. Immunodiffusion tests showed that anti-soybean nodule xanthine dehydrogenase would cross-react with nodule crude extracts from the ureide producers, soybean, cowpea, and lima bean, but would not cross-react with those of the amide producers, alfalfa and lupine. A crude extract from pea nodules cross-reacted slightly with anti-soybean xanthine dehydrogenase. Anti-soybean xanthine dehydrogenase did not cross-react with buttermilk xanthine oxidase either by enzyme-linked immunosorbent assay or by immunodiffusion test.

Fresh nodule sections from the ureide-producers, soybean, cowpea, and lima bean, all stained positively for xanthine dehydrogenase. The substrate-dependent stain was inhibited by allopurinol and was observed only in the infected nodule cells of these species. Nodules from the amideproducers, alfalfa and white lupine, did not stain for xanthine dehydrogenase.

     

藏红花愈伤组织诱导及其细胞培养的研究

藏红花幼叶愈伤组织的诱导频率在ＭＳ,Ｂ５和Ｗｈｉｔｅ三种培养基上均高达９８％;幼叶和芽的诱导率差异不大,高达９９％;不同时期的叶片差异较大,以幼叶诱导为佳;球茎诱导率为近８０％;激素配比以２．４－Ｄ２．０ｍｇ／Ｌ,ＢＡＰ０．１～０．５ｍｌ／Ｌ为宜。在继代培养阶段,ＭＳ比Ｂ５和Ｗｈｉｔｅ更适合细胞的快速生长繁殖;并且以叶片的愈伤组织生长较快,芽次之,球茎最慢,适合于细胞生长的激素配比为ＮＡＡ２．０～３．０ｍｇ／Ｌ,ＢＡＰ０．５～１．０ｍｇ／Ｌ为宜。     

Reduction of vitrification in in vitro raised shoots of Chlorophytum borivilianum Sant. & Fernand., a rare potent medicinal herb

Reduction of vitrification in in vitro raised shoots derived from shoot bases and immature floral buds along with inflorescence axis used as explants of C. borivilianum, a rare medicinal herb is described. Shoot multiplication was obtained on MS medium with 2 mg l(-1) benzylaminopurine (BAP) + 0.1 mg l(-1) indole-3-butyric acid (IBA) and MS medium with 2 mg l(-1) kinetin (Kin) + 0.1 mg l(-1) 2,4-dichlorophenoxy acetic acid (2,4-D) from shoot bases and inflorescence axis respectively. Best multiplication rates were obtained from both the explants on MS medium with 2 mg l(-1) BAP. Vitrification of shoots in cultures appeared during the multiplication stage. Culture bottles with aerated caps reduced the vitrification to 80%. Reduction of BAP concentration from 2 mg l(-1) to zero during subsequent subcultures also minimized vitrification. Use of 0.5-2 mg l(-1) Kin produced healthy shoots when compared to BAP. In vitro raised shoots rooted on Knop salts containing iron and vitamins of MS medium, 2 mg l(-1) IBA and 0.1% activated charcoal. About 80% plantlets survived upon soil transfer. Scanning electron microscopic and image analyzer studies reveal the morphological structural differences between the leaves of normal and vitrified plantlets.     

Cytokinin promotes catalase and ascorbate peroxidase activities and preserves the chloroplast integrity during dark-senescence

Increased oxidative stress displayed during dark-senescence of wheat leaves (Triticum aestivum L.) is caused not only by the increased levels of radicals but also by a loss of antioxidant capacity. Mature leaves were incubated in 6-benzylaminopurine (BAP 10⁻⁴ M) or water (control) during 6 d in the dark. The senescence-delaying effect of BAP was associated with the retention of the chloroplast structure, 60% of the initial content of chlorophyll (Chl) and 77% of the initial content of protein. BAP reduced the degradation of the light-harvesting chlorophyll a/b binding protein (LHCP-2), and the large (LSU) and small subunits (SSU) of Rubisco. Our results indicated that the presence of the NADPH:protochlorophyllide oxidoreductase (POR, EC.1.6.99.1) was not promoted by the cytokinin, leading to the conclusion that BAP maintains the level of Chl, preventing its degradation, rather than inducing Chl biosynthesis. The internal structure of chloroplasts was maintained in BAP-treated leaves for up to 6 d, with well-organized grana thylakoids and small plastoglobuli; in contrast, chloroplasts of control leaves deteriorated rapidly from day 4 with disorganized internal membranes, and more and larger plastoglobuli. BAP increased the activities of catalase (CAT, EC 1.11.1.6) and ascorbate peroxidase (APX, EC 1.11.1.11) and reduced the level of H₂O₂ in the delayed-senescence tissue. The present research indicates that BAP reduces levels of reactive oxygen species (ROS), and enhances the activity of antioxidant enzymes (CAT, APX). Our results suggest that BAP protects the cell membranes and the photosynthetic machinery from oxidative damage during delay of senescence in the dark.     

Immunochemical studies on xanthine dehydrogenase of soybean root nodules

Xanthine dehydrogenase (XDH, EC 1.2.1.37) was purified from root nodules of soybean (Glycine max) and used to prepare a polyclonal rabbit antiserum. Monospecificity of this antiserum was ascertained by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the immunoprecipate. During root nodule development of soybean, only one form of XDH was detected on an immunological basis. Titration of XDH by immunoelectrophoresis showed that a remarkable increase in the amount of XDH occurred between two and four weeks after inoculation, in parallel with the increase in enzyme activity. Localization of XDH by immunofluorescence indicated that the enzyme was present exclusively in uninfected cells where it appeared to be associated with discrete organellelsAbbreviations IgG immunoglobulin G - SDS-PAGE sodium dodecyl sulfate — polyacrylamide gel electrophoresis - XDH xanthine dehydrogenase     

Effect of 6-Benzylaminopurine on the Structure of the Photosynthetic Apparatus of Faba Bean (Vicia faba L.)

The level of endogenous cytokinins changed with growth and development of faba bean (Vicia faba L.) leaves. Typical of juvenile leaves, amounting to 25% of the final leaf size (S _max), was a low content of these plant hormones. The level of cytokinins increased in growing leaves (50% of S _max) and decreased in leaves that stopped growing. The content of cytokinins in senescent leaves dropped considerably. Exogenous treatment with 6-benzylaminopurine (BAP) had no effect on the structure of the terminal phloem; however, it did (1) stimulate elongation of mesophyll cells; (2) increase the area and thickness of the leaf blade, amount of photosynthetic pigments, and assimilation potential; and (3) delay senescence of the leaves and defoliation, thereby increasing the biomass of the aboveground plant part. It is inferred that BAP has the potential for inducing the development of photosynthetic apparatus and increasing the yield of the green mass of faba bean.     

外源赤霉素GA3对大豆光合作用的促进和叶片内源赤霉素GA1+3水平

在营养生长阶段大豆正在扩展和刚刚完全扩展的叶片（4-12天龄）观察到外源赤霉素GA3引起净光合速率增高,但是在成龄叶片（17-22天龄）观察不到这种效应（图1）。在扩展着的叶片（4-8天龄）中用免疫实验检测的内源赤霉素GA1 3含量低于成龄叶片中的含量（图2）。由这些结果得出结论：外源赤霉素GA3对大豆叶片光合作用的促进作用是以内源有生物活性的赤霉素含量低为前提的。     

Effect ofin vivo andin vitro application of the cytokinin N6 -(m-hydroxybenzyl)adenosine on respiration and membrane transport processes in sugar beet

Sugar beet grown in pots was sprayed with N⁶-(m-hydroxybenzyl)adenosine, (mOH)- [9R]BAP, one of the synthetic cytokinins. Root tissue was then examined for respiration and for H⁺-adenosinetriphosphatase activity and both leaf and root tissue served as the object for 6-deoxy-D-glucose and 2-aminoisobutyric acid uptake estimations. Treatment with (mOH)[9R]BAP depressed the uptake of oxygen by the roots of both young and old plants by 17 – 30 % while addition of (mOH)[9R]BAP to the respiring slices decreased it by 10 – 23 %. Uptake of 6-deoxy-D-glucose was mostly diminished byin vivo spraying with the cytokinin (by up to 12 % in leaves and by up to 60 % in roots), as well as by adding it to the experimental vessel (insignificantly in the leaves but by up to 80 % in the roots). The H⁺-ATPase activity was stimulated bothin vivo andin vitro appreciably in young plants but not at all in plants at the end of their vegetation period. Acknowledgement: The work described here was supported by grant No. 501/94/0413 of the Grant Agency of the Czech Republic     

Effect of Benzylaminopurine on Rehydration of Bean Plants after Water Stress

The possibility of improving the recovery of plant photosynthesis after water stress by cytokinin-induced stimulation of stomatal opening or delay of leaf senescence was tested. The 6-benzylaminopurine (BAP) in concentrations 1 and 10 M was applied to the substrate (sand + nutrient solution) or sprayed on primary leaves of 14-d-old Phaseolus vulgaris L. plants sufficiently supplied with water or water-stressed for 4 d. The later ones having relative water content decreased to 69 % were fully rehydrated during the following three days. Parameters of photosynthesis and water relations were measured in primary leaves of 7-, 10-, 14-, and 17-d-old plants. Application of 1 M BAP slightly delayed leaf senescence: in 17-d-old control plants, net photosynthetic rate (P_N) and chlorophyll (Chl) content, and when sprayed on leaves also some of Chl a fluorescence kinetic parameters of BAP-treated leaves were slightly higher than those of untreated leaves. Both types of application of 1 M BAP slightly improved recovery of plants during rehydration after water stress in terms of increased g_ad, g_ab and P_N, i.e., parameters which were markedly decreased by mild water stress. However, contents of Chl a, Chl b and carotenoids and parameters of Chl a fluorescence kinetic were not markedly affected by mild water stress and after rehydration were not stimulated by 1 M BAP. 10 M BAP had mostly negative effects on the parameters measured.     

Hypocotyl-based <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of soybean (<Emphasis Type="Italic">Glycine max</Emphasis>) and application for RNA interference

An efficient system of gene transformation is necessary for soybean [Glycine max (L.) Merrill] functional genomics and gene modification by using RNA interference (RNAi) technology. To establish such system, we improved the conditions of tissue culture and transformation for increasing the frequency of adventitious shoots and decreasing the browning and necrosis of hypocotyls. Adding N(6)-benzylaminopurine (BAP) and silver nitrate in culture medium enhanced the shoot formation on hypocotyls. BAP increased the frequency of the hypocotyls containing adventitious shoots, while silver nitrate increased the number of shoots on the hypocotyls. As a result, the number of adventitious shoots on hypocotyls cultured in medium containing both BAP and silver nitrate was 5-fold higher than the controls. Adding antioxidants in co-cultivation medium resulted in a significant decrease in occurrence of browning and necrosis of hypocotyls and increase in levels of beta-Glucuronidase (GUS) gene expression. Histochemical assays showed that the apical meristem of hypocotyls was the "target tissue" for Agrobacterium tumefaciens transformation of soybean. Gene silencing of functional gene by using RNAi technology was carried out under above conditions. A silencing construct containing an inverted-repeat fragment of the GmFAD2 gene was introduced into soybean by using the A. tumefaciens-mediated transformation. Several lines with high oleic acid were obtained, in which mean oleic acid content ranged from 71.5 to 81.9%. Our study demonstrates that this transgenic approach could be efficiently used to improve soybean quality and productivity through functional genomics.     

Morphogenetic Effects of Roots and of Some Synthetic Cytokinins in Vitis vinifera L.

In woody cuttings of the grape vine, inflorescences of fertilebuds usually fail to develop and atrophy soon after bud burst.Results presented here indicate that this effect is relatedto absence of roots at planting. Inflorescences were retainedin pre-rooted cuttings which were propagated by holding thetemperature of the medium at 25° C and the air temperatureat 4° C. Similar effects on inflorescence growth were obtainedby applying synthetic cytokinins to the bases of unrooted cuttingsin solution cultures, and by applications to emergent inflorescences.Promotion of inflorescence growth was found with 6-benzyl-aminopurine(BAP) and 6-(benzylamino)-9-(2-tetrahydropyranyl)-9H purine(‘SD 8₃₃₉’). Stimulation of inflorescence growthby BAP was accompanied by reduction in vegetative growth, andby development of red pigments in inflorescences and leaves.Results of cincturing experiments indicate that BAP is transportedacropetally in the xylem of vines. Effects of roots, and effectsof synthetic cytokinins, are discussed in relation to recentdiscoveries of endogenous cytokinins in the ascending sap ofvines.