Mobilization of sulphur in soybean cotyledons during germination

Soybean seeds ( Glycine max L. cv , Stephens) contain a large amount of sulphur (ca 40 μ mol seed⁻¹), mostly in the insoluble fraction in the cotyledons. During germination in nutrient solution lacking sulphur the amount of insoluble sulphur decreases to very low levels. This is accompanied by a transitory increase in the pool of soluble sulphur which then declines. All of the sulphur lost from the cotyledons is quantitatively recovered in the seedling. In the short term, the root and the stem are the most important sinks for sulphur from the cotyledons but as growth proceeds the shoot becomes the dominant sink for remobilized sulphur. Within the shoot most of the sulphur is recovered in leaves L1 and L2. The growth of L3 and, to a lesser extent, L2, was retarded due to sulphur insufficiency. The cotyledons of plants treated with 20 μ M sulphate also exhibited mobilization of sulphur from the insoluble fraction except that the maximum rate of loss of sulphur occurred somewhat later. Plants grown with sulphate exhibited a net gain of sulphur and did not exhibit sulphur insufficiency. In these plants, endogenous sulphur from the cotyledons was directed into L1–L3 and this sulphur remained within these leaves for the duration of the experiment. The delivery of exogenous sulphur (supplied as [³⁵S]sulphate via the roots) to the leaves increased with leaf number. In leaves L1–L3, the level of exogenous sulphur in any one leaf declined with time, indicating that this sulphur was remobilized and did not mix with the sulphur derived from the cotyledons. It was concluded that the cotyledons are an important source of sulphur to support early plant growth and development of soybean.     

Immunological comparison of lipoxygenase isozymes-1 and -2 with soybean seedling lipoxygenases

An affinity-purified polyclonal antibody against soybean seed lipoxygenase-2 was prepared and used to characterize the immunological relatedness of lipoxygenase isozymes 1 and 2 and lipoxygenases from soybean seedling roots, hypocotyls, leaves, and cotyledons. All soybean lipoxygenases tested cross-reacted with the anti-lipoxygenase-2. Cross-reactivity of seed-derived lipoxygenases was evidenced by formation of a line of identity in double-diffusion tests, by positive results on an immunoblot, and by antibody precipitation of enzyme activity. Levels of anti-lipoxygenase-2, which inhibited lipoxygenase-2 activity, had no effect on lipoxygenase-1 activity. Root, hypocotyl, and leaf lipoxygenases did not form precipitation lines in double-diffusion tests but the anti-lipoxygenase-2 did inhibit and precipitate lipoxygenase activity from these sources as well as cross-react on immunoblots. All the cross-reactive lipoxygenases examined were found to have the same apparent molecular weight. Lipoxygenase activity found in soybean seedling roots, hypocotyls, leaves, and cotyledons is associated with proteins which are all immunologically related to the seed-derived enzymes.     

Genotypic and developmental regulation of transient expression of a reporter gene in soybean zygotic cotyledons

Processes involved in transformation of regenerable soybean (Glycine max (L.) Merrill) immature zygotic cotyledons were studied by assaying the transient expression of the -glucuronidase gene driven by the 35S promoter and terminated at the 3 end by the soybean 7S storage protein gene. The plasmid containing the chimeric gene was delivered to the cotyledons via particle bombardment 900 PSI. Zygotic cotyledons from six soybean varieties were tested for transient expression of the -glucuronidase gene. The level of reporter gene expression differed between genotypes. The genotypes could be classified as high, fair or poor expressors. Cotyledons from different genotypes were then bombarded at 650, 900 or 1100 PSI. GUS expression varied among genotypes independently of the pressure of bombardment. Finally, the ability of cotyledons to express the reporter gene depended on the developmental stage of the seed from which it was excised with the younger stage being the least responsive. However, genotypic specific expression remained after controlling for developmental stage of the cotyledons.Abbreviations ANOVA analysis of variance - GUS -glucuronidase - PSI pounds per square inch - TEUs transient expression units - MSO3 MS media with 3% sucrose     

Regulation of expression of the cucumber isocitrate lyase gene in cotyledons upon seed germination and by sucrose

A 6.5 kb cucumber genomic DNA fragment containing the icl gene was introduced into Nicotiana plumbaginifolia and shown to direct isocitrate lyase (ICL) mRNA synthesis in transgenic seedlings upon germination, in a temporally regulated manner. Two putative icl promoter fragments, of 2900 and 572 bp, were subsequently linked to the GUS reporter gene and introduced into N. plumbaginifolia. Both constructs directed GUS expression after transgenic seed germination, and although the 572 bp fragment gave only 1% of the activity of the 2900 bp fragment, it directed expression in the same cotyledon-specific and temporally regulated pattern. Seedlings were transferred to darkness after 18 days growth in the light, to induce a starvation response. The 2900 bp construct was activated by starvation and repressed by exogenous sucrose, whereas the 572 bp construct was not starvation-responsive. To localize the region of the 2900 bp promoter fragment which is responsible for regulation by sucrose, further deletions were make, linked to GUS, and assayed in a cucumber protoplast transient assay system. Constructs with promoters of 2900, 2142 and 1663 bp were activated by starvation and repressed by sucrose, but promoters of 1142 and 572 bp showed no such response. We conclude that the icl gene promoter contains at least two distinct cis-acting elements, one required for the response to sucrose and the other which participates in expression upon seed germination.     

Effects of exogenous auxins on expression of lipoxygenases in cultured soybean embryos

The expression of lipoxygenases (LOXs) is known to be developmentally regulated in soybeans (Glycine max. [L.] Merr.). Hormones have been firmly established as being involved in the growth and developmental processes of a number of plant species. Correlation between the expression of LOXs and the development and germination of soybean embryos suggests that plant hormones may affect the expression of LOXs. The present studies were conducted to investigate the effects of exogenous auxins on the expression of LOX isozymes and LOX activities in cultured cotyledon tissues of immature soybean seeds. The results revealed that at least one of the more acidic nonembryo LOX isozymes was induced by either α-naphthaleneacetic acid or indoleacetic acid but not by 2,4-dichlorophenoxyacetic acid after 4 days' exposure. Levels of LOX-1, -2, and -3 proteins and activities were significantly decreased by 2,4-dichlorophenoxyacetic acid 10 days after explanting. S1 analysis showed that embryo LOX messenger RNAs were detectable in the tissues treated with each of the auxins. The reduced levels of the embryo LOX proteins may, therefore, be regulated at the levels of translation, posttranslational modification, or degradation. The more acidic isozymes induced by α-naphthaleneacetic acid showed enzymatic activity and shared the same molecular mass and isoelectric point values as the germination-associated LOX isozymes found in hypocotyls and radicles, suggesting that those LOXs are involved in germination competency of soybean embryos.     

cDNA cloning and expression of a gene for 3-ketoacyl-CoA thiolase in pumpkin cotyledons

A cDNA clone for 3-ketoacyl-CoA thiolase (EC 2.3.1.16) was isolated from a gt11 cDNA library constructed from the poly(A)⁺ RNA of etiolated pumpkin cotyledons. The cDNA insert contained 1682 nucleotides and encoded 461 amino acid residues. A study of the expression in vitro of the cDNA and analysis of the amino-terminal sequence of the protein indicated that pumpkin thiolase is synthesized as a precursor which has a cleavable amino-terminal presequence of 33 amino acids. The amino-terminal presequence was highly homologous to typical amino-terminal signals that target proteins to microbodies. Immunoblot analysis showed that the amount of thiolase increased markedly during germination but decreased dramatically during the light-inducible transition of microbodies from glyoxysomes to leaf peroxisomes. By contrast, the amount of mRNA increased temporarily during the early stage of germination. In senescing cotyledons, the levels of the thiolase mRNA and protein increased again with the reverse transition of microbodies from leaf peroxisomes to glyoxysomes, but the pattern of accumulation of the protein was slightly different from that of malate synthase. These results indicate that expression of the thiolase is regulated in a similar manner to that of other glyoxysomal enzymes, such as malate synthase and citrate synthase, during seed germination and post-germination growth. By contrast, during senescence, expression of the thiolase is regulated in a different manner from that of other glyoxysomal enzymes.     

Cell divisions in cotyledons after germination: localization, time course and utilization for a mutagenesis assay

Post-germinative proliferation of cells was studied in cotyledons of Nicotiana tabacum L., Petunia hybrida Vilm. and Arabidopsis thaliana (L.) Heynh. Patterns of cell divisions after germination were characterized by clonal analysis in cotyledons of N. tabacum. The fate of initial cells, which are formed by the end of embryogenesis, was quite variable: cells could undergo between one to seven, and most often, between three to five anticlinal divisions after germination. Sector shape suggested that there were more divisions in length than in width, particularly at the periphery of the cotyledon. The boundaries of clones generated by irradiation of mature seeds did not intersect the midvein, and in most cases, did not intersect lateral veins. The time course of cell divisions during post-germinative development was analyzed cytologically in cotyledons of N. tabacum and P. hybrida. No divisions were detected up to the second day after sowing (DAS), when the radicle emerged. Cotyledon cells started to divide at a rapid rate between 2 and 3 DAS, reaching a mitotic index of about 2% at 3–4 DAS. A rapid decline followed the peak, and no divisions were detected 6–7 DAS. Similarities between leaf and cotyledon development are discussed. In addition, we show that divisions in cotyledons of N. tabacum and A. thaliana chlorophyll mutants can be exploited for a quick and sensitive bioassay from which the effects of various mutagens and DNA repair genes can be assessed.     

Structure conservation in lipoxygenases: Structural analysis of soybean lipoxygenase-1 and modeling of human lipoxygenases

Lipoxygenases are a class of non-heme iron dioxygenases which catalyze the hydroperoxidation of fatty acids for the biosynthesis of leukotrienes and lipoxins. The structure of the 839-residue soybean lipoxygenase-1 was used as a template to model human 5-, 12-, and 15-lipoxygenases. A distance-based algorithm for placing side chains in a low homology environment (only the four iron ligands were fixed during side chain placement) was devised. Twenty-six of the 56 conserved lipoxygenase residues were grouped in four distinct regions of the enzyme. These regions were analyzed to discern whether the side chain interactions could be duplicated in the models or whether alternate conformers should be considered. The effects of site directed mutagenesis variants were rationalized using the models of the human lipoxygenases. In particular, variants which shifted positional specificity between 12- and 15-lipoxygenase activity were analyzed. Analysis of active site residues produced a model which accounts for observed lipoxygenase positional specificity and stereospecificity.     

A lipoxygenase is the main lipid body protein in cucumber and soybean cotyledons during the stage of triglyceride mobilization.

The 90-kDa lipid body protein characterized earlier by its high expression during the stage of fat degradation was identified as a form of lipoxygenase. This organelle form was compared with lipoxygenase species purified from the cytosol. It is further shown that the antibodies raised against the lipid body membrane lipoxygenase from cucumber cotyledons cross-react with both cytosolic and lipid body lipoxygenase from soybean.     

Transient gene expression of microprojectile-introduced DNA in Douglas-fir cotyledons

Summary Plasmid DNA containing the reporter gene uidA encoding -glucuronidase (GUS), driven by the cauliflower mosaic virus 35S promoter, was introduced on high-velocity microprojectiles into cultured cotyledons of Douglas-fir [Pseudotsuga menziesii (Mirb.) Franco]. Transient gene expression was measured by counting the number of distinct loci of GUS activity per cotyledon. Contrary to published results on angiosperms, repeated bombardments did not increase expression in Douglas-fir. Expression varied significantly among cotyledons from different seedlings. The amount of time between DNA delivery and treatment of cotyledons with auxins and cytokinins strongly affected GUS expression. The optimal cytokinin pretreatment produced an average of 20 loci per cotyledon. In several experiments, more than 95% of the treated cotyledons exhibited at least some transient expression. Expression remained constant up to three days following DNA delivery into cotyledons.Abbreviations GUS -glucuronidase - CMV cauliflower mosaic virus - NOS nopaline synthase - 2,4-D 2,4-dichlorophenoxyacetic acid - BA N⁶-benzylaminopurine - X-GLUC 5-bromo-4-chloro-3-indolylglucuronide - kb kilobases Paper No. 2568 of the Forest Research Laboratory, Oregon State University, Corvallis, OR 97331, USA     

Reductive inactivation of soybean lipoxygenase 1 by catechols: a possible mechanism for regulation of lipoxygenase activity

Nordihydroguaiaretic acid (NDGA), one of the most efficient inhibitors of lipoxygenases, is shown, by electron paramagnetic resonance, circular dichroism, and fluorescence studies, to reduce the catalytically active ferric soybean lipoxygenase 1 (Eox) to the inactive ferrous form (Ered). In decreasing order of reactivity, the following also reduce Eox: catechol greater than hydroquinone greater than 2,6-di-tert-butyl-4-methylphenol greater than esculetin greater than caffeic acid approximately equal to alpha-tocopherol greater than norepinephrine greater than dithiothreitol. The reduction of Eox by NDGA (kappa = 8.1 X 10(6) M-1 S-1, pH 9.0, 25 degrees C) is almost as fast as the Eox-catalyzed conversion of linoleate (LH) to 13(S)-hydroperoxy-9(Z), 11(E)-octadecadienoate (LOOH) and the oxidation of Ered by LOOH to give Eox. Thus, NDGA can efficiently inhibit the Eox-catalyzed conversion of LH to LOOH by reducing Eox to the inactive Ered, thereby diminishing the turnover rate. Lipoxygenase catalyzes the oxidation of NDGA by LOOH at a rate that is consistent with the independently determined rate constant for the reduction of Eox by NDGA. All four reducing equivalents from the two catechol groups in NDGA can be utilized in the reduction of Eox, leading to the consumption of 4 mol of LOOH/mol of NDGA initially present. Because the catalytically inactive Ered is oxidized by fatty acid hydroperoxides (e.g., LOOH) to give the active Eox, reducing agents such as NDGA are most effective as lipoxygenase inhibitors at low hydroperoxide concentrations. Our results suggest that in vivo, where lipid hydroperoxides are maintained at low steady-state levels, reduction of lipoxygenase from the ferric to ferrous state may be important in the regulation of lipoxygenase activity and hence leukotriene biosynthesis.     

Crystallization and preliminary X-ray characterization of a soybean seed lipoxygenase

An isoenzyme of soybean (Glycine max L. Merrill cv. Provar) lipoxygenase (EC 1.13.11.12) has been crystallized using the vapor diffusion method. Crystals were grown from solutions of the protein (7 mg/ml) using 10 to 20% (w/v) polyethylene glycol 8000 in citrate/phosphate buffer (pH 5.7) containing 0.5% (w/v) n-octyl-beta-D-glucopyranoside. The crystals reached maximum dimensions of 0.3 mm x 0.2 mm x greater than 2 mm. The enzyme crystallized in space group C222(1) with unit cell dimensions a = 246 A, b = 193 A and c = 75 A. A calculated Vm value of 2.35 A3/dalton was obtained assuming two molecules per asymmetric unit. The density of the crystals was found to be 1.16 g/ml, which confirmed the presence of two molecules per asymmetric unit and indicated a solvent content of 47.5%.