Influence of lead on membrane permeability and lipoxygenase activity in lupine roots

Lead nitrate at concentration of 150 mg dm⁻³ inhibits root growth of Lupinus luteus seedlings by bout 20 %, which is accompanied by an increase of K⁺ leakage from the root cells. Non-denaturing isoelectric focusing in polyacrylamide slab gel has shown that lead stimulates the activity of most lipoxygenase isoenzymes and induces one additional isoenzyme with pI 6.9.The work was supported by the State in Committee for Scientific Research (KBN) grant no. 3PO6A 018 23.     

Glucan-phosphorylase forms in cotyledons of Pisum sativum L.: Localization,developmental change,in-vitro translation,and processing

The occurrence, location, and biosynthesis of glucan-phosphorylase (EC 2.4.1.1) isoenzymes were studied in cotyledons of developing or germinating seeds of Pisum sativum L. Type-I and type-II isoenzymes were detected, and were also localized by indirect immunofluorescence using polyclonal anti-type-I or anti-type-II phosphorylase antibodies. Type-I isoenzyme was found in the cytosol of parenchyma cells whereas the type-II enzyme form is a plastid protein which resides either in amyloplasts (in developing seeds) or in proplastids (in germinating seeds). During seed development, type-II phosphorylase was the predominant isoenzyme and the type-I isoenzyme represented a very minor compound. During germination, the latter increased whilst type-II phosphorylase remained at a constant level. In in-vitro translation experiments, type-I isoenzyme was observed as a final-size product with an apparent molecular weight of approx. 90 kDa. In contrast, type-II phosphorylase was translated as a high-molecular-weight precursor (116 kDa) which, when incubated with a stromal fraction of isolated intact pea chloroplasts, was processed to the size of the mature protein (105 kDa).Abbreviations IgG immunoglobulin G - kDa kilodalton - poly(A)⁺ RNA polyadenylated RNA - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis This work has been made possible by grants from the Deutsche Forschungsgemeinschaft. The authors are endebted to Mrs. Karin Niehüser for help in the immunocytochemical studies.     

Separation and characterization of two chorismate-mutase isoenzymes from Nicotiana silvestris

Two isoenzymes of chorismate mutase (EC 5.4.99.5) were isolated and partially purified from leaves of diploid (2n=24) Nicotiana silvestris Speg. et Comes and from isogenic cells in a suspension culture originally established from haploid tissue. An isoenzyme denoted CM-1 (M _r=52,000) accounted for the major fraction of total activity recovered from suspension-cultured cells, while isoenzyme CM-2 (M _r=65,000) represented the major fraction of activity recovered from green leaf tissue. The ratio of isoenzyme levels from these two sources differed more than 20-fold. The subcellular location of isoenzyme CM-1 is known to be in the chloroplasts of green leaves or in proplastids of cultured cells, while isoenzyme CM-2 is located in the cytosol. Both isoenzymes were stable during partial purification, possessed broad pH optima for catalysis between 6.0 and 8.0, and were active without denaturation at temperatures at least as high as 45° C. Thiol reagents were unnecessary for either stability or activity of both isoenzymes. The affinity of isoenzyme CM-2 for substrate (K _m=0.24 mM) was almost an order of magnitude better than that of CM-1. The kinetic behavior of isoenzyme CM-1 was influenced by pH, while that of isoenzyme CM-2 was not. At pH 7.2, hyperbolic substrate-saturation curves (K _m=1.7 mM) were obtained for isoenzyme CM-1. At pH 6.1, however, isoenzyme CM-1 displayed relatively weak positive cooperativity, Hill plots yielding an n value of 1.2 At pH 6.1 the half-saturation ([S]_0.5) value was 2.5 mM.Abbreviations DEAE diethylaminoethyl - M _r molecular weight     

Peroxidase and chitinase isoenzyme activities during root infection of Chinese cabbage with Plasmodiophora brassicae

Roots of two Chinese cabbage (Brassica campestris L. ssp. pekinensis) varieties, one tolerant and one susceptible, were inoculated with Plasmodiophora brassicae in liquid medium and in soil. Chitinase and peroxidase activities were determined in roots and shoots 1–21 days after inoculation with resting spores of Plasmodiophora and the enzyme activities compared with healthy tissue of the same age. In infected roots of the susceptible variety ‘Granat’ chitinase activity was higher than in the control 10 days after inoculation with spores. In the tolerant variety ‘Parkin’ we detected an increase in chitinase activity at the same time, which was about twice that of ‘Granat’. Chitinase activity in ‘Granat’ was also enhanced on day 13, 14 and 17 after inoculation, whereas chitinase activity in ‘Parkin’ was lower in the infected roots than in the controls during that period. In the shoots no correlation between chitinase activity and infection in the two varieties was observed. Chitinase from Chinese cabbage was further characterized and showed a pH optimum at pH 4.5–5.5 and a temperature optimum at 35–45°C. After isoelectric focusing 7 isoenzymes were discovered, but there were almost no differences between infected and healthy root extracts. Two isoenzymes with pI 8.7 and 8.8 showed cross-reactivity with an antiserum against bean chitinases. The molecular mass of these isoenzymes was determined as 33 kDa. Total peroxidase activity was generally higher in root tissue of both varieties than in the shoots. Peroxidase activity was increased most prominently in infected ‘Granat’ roots on day 13 after inoculation and of both varieties on day 17 compared to the controls. In clubbed tissue of ‘Granat’ a specific peroxidase isoenzyme appeared the first time 21 days after inoculation and was most prominent 28–30 days after inoculation. This isoenzyme had a molecular mass of ca 24 kDa and a pI of ca 8.8. With respect to our results the strategy of the Plasmodiophorales for plant attack is discussed.     

Properties and intracellular distribution of two phosphoglucomutases from spinach leaves

Two isoenzymes of phosphoglucomutase from spinach (Spinacia oleracea L.) leaves can be separated by ammonium-sulfate gradient solubilization or DEAE-cellulose ion exchange chromatography. They were designated as phosphoglucomutase 1 and 2, according to decreasing electrophoretic mobility towards the anode at pH 8.9. Phosphoglucomutase 1 is localized in the stroma of the chloroplasts, phosphoglucomutase 2 is a cytosolic enzyme as judged from aqueous cell fractionation studies. Both isoenzymes have very similar properties such as dependence on MgCl₂, pH activity profile, and K_m for glucose-1-phosphate and glucose-1,6-bisphosphate. From sedimentation-velocity analysis a molecular weight of 60,000 was estimated for either isoenzyme.     

Protein inhibitors of microbial proteinases from wheat,rye and triticale

Specific protein inhibitors of microbial serine proteinases were isolated from wheat (Triticum aestivum L.), rye (Secale cereale L.) and triticale using affinity chromatography on subtilisin-Sepharose 4B. The wheat inhibitor had an isoelectric point (pI) at pH 7.2, while the rye inhibitor consisted of two forms with pI values of 6.8 and 7.1. In triticale, two components were present with pIs 7.2 and 6.8. All the inhibitors had M _r values of approx. 20 000. The isolated proteins were effective inhibitors of subtilisins Carlsberg and BPN, and of fungal proteinases (EC 3.4.21.14) from the genus Aspergillus, but they were completely inactive against trypsin (EC 3.4.21.4) chymotrypsin (EC 3.4.21.1) and pancreatic elastase (EC 3.4.21.36). The inhibitors formed complexes with subtilisin in a molar ratio of 1:1. The results of chemical modifications seem to indicate that the isolated inhibitors have methionine residues in their reactive sites.Abbreviation pI isoelectric point     

Purification and Characterization of Class Alpha and Mu Glutathione S-Transferases From Porcine Liver

Six cytosolic GSTs from porcine liver were purified by a combination of glutathione affinity chromatography and ion-exchange HPLC. The isoenzymes were characterized by SDS-PAGE, gel filtration, isoelectric focusing, immunoblotting analysis and determination of substrate specificities and inhibition characteristics. The purified GSTs belong to the alpha and mu classes, respectively. No class pi isoenzyme was isolated or detected. The class alpha GST pA1-1* exists as a homodimer (M_r = 25.3 kDa), whereas GST pA2-3* consists of two subunits with different M_r values (27.0 and 25.3 kDa). The estimated pI values were 9.5 and 8.8, respectively. Furthermore, four class mu porcine GSTs, pM1-1*, pM1-2*, pM3-?* and pM4-?*, were isolated. The isoenzyme pM1-1* possesses a relative molecular mass of 27.2 kDa and a pI value of 6.2. Additional pM1 isoenzymes hybridize with the subunit pM2* (M_r = 25.2) to furnish a heterodimer, which shows a pI value of 5.8. The other class mu isoenzymes are heterodimers with pI values of 5.45 and 5.05. Substrate specificities and inhibition characteristics correlate very well with those of the corresponding human isoenzymes. The results are discussed with regard to the usefulness of porcine GSTs as an in vitro testing model.     

Enzymes of nitrogen assimilation in maize roots

The intracellular distribution of enzymes involved in the Crassulacean acid metabolism (CAM) has been studied in Bryophyllum calycinum Salisb. and Crassula lycopodioides Lam. After separation of cell organelles by isopycnic centrifugation, enzymes of the Crassulacean acid metabolism were found in the following cell fractions: Phosphoenolpyruvate carboxylase in the chloroplasts; NAD-dependent malate dehydrogenase in the mitochondria and in the supernatant; NADP-dependent malate dehydrogenase and phosphoenolpyruvate carboxykinase in the chloroplasts; NADP-dependent malic enzyme in the supernatant and to a minor extent in the chloroplasts; NAD-dependent malic enzyme in the supernatant and to some degree in the mitochondria; and pyruvate; orthophosphate dikinase in the chloroplasts. The activity of the NAD-dependent malate dehydrogenase was due to three isoenzymes separated by (NH₄)₂SO₄ gradient solubilization. These isoenzymes represented 17, 78, and 5% of the activity recovered, respectively, in the order of elution. The isoenzyme eluting first was associated with the mitochondria and the second isoenzyme was of cytosolic origin, while the intracellular location of the third isoenzyme was probably the peroxisome. Based on these findings, the metabolic path of Crassulacean acid metabolism within cells of CAM plants is discussed. New address: Institut für Pflanzenphysiologie und Zellbiologie, Freie Universität Berlin, Königin-Luise-Straße 12-16a. D-1000 Berlin 33     

Purification and Properties of the Threespine Stickleback (Gasterosteus aculeatus) Lactate Dehydrogenase LDH-B4 and LDH-C4 Isoenzymes

In the threespine stickleback (Gasterosteus aculeatus) lactate dehydrogenase (LDH, EC 1.1.1.27) is encoded by three loci, Ldh-A, Ldh-B, and Ldh-C. LDH-B₄ isoenzyme restricted its function to eye and brain, while LDH-C₄ isoenzyme functions in the eye. In the Dead Vistula stickleback population, none of LDH loci is polymorphic. The LDH-B₄ and LDH-C₄ isoenzymes from the eye were purified to homogeneity to specific activity of 186 and 229 μmol NADH min⁻¹mg⁻¹, respectively, at 30°C. Some physico-chemical and kinetic properties revealed that eye LDH-C₄ isoenzyme was more thermostable and had a higher affinity to pyruvate than LDH-B₄ isoenzyme. Lower Km for pyruvate of eye LDH-C₄ isoenzyme distinguishes it from fish LDH-C₄ isoenzyme isolated from liver.     

Occurrence of two isoforms of glutathione reductase in the green alga Chlamydomonas reinhardtii

Two isoforms (isoenzymes) of glutathione reductase (NADPH: oxidized glutathione oxidoreductase, EC 1.6.4.2; GR) were clearly resolved when enzyme preparations partially purified from the unicellular alga Chlamydomonas reinhardtii were subjected to column chromatofocusing in the pH range from 8 to 4. One isoform (GR I) exhibited an almost electroneutral isoelectric point (pI, 6.9–7.1) and the other (GR II) was a very acidic protein (pI, 4.7–4.9). Both GRs are, however, homodimeric flavoproteins with similar molecular masses of approx. 127 kDa. Cross-reaction with an antibody against the cyanobacterial GR allowed determination of their subunit molecular masses by Western blotting after polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, a value of 66 kDa being estimated in both cases. The two algal GR isoforms showed similar K _m values for the oxidized form of glutathione (approx. 50 M). However, the K _m values for NADPH were different, being 7 M and 28 M for GR I and GR II, respectively. The two isoforms also differed in their optimum pH. Thus, whereas GR I showed a clear maximum at neutral pH, GR II exhibited a broader optimum around pH 8.5 and was more active in the alkaline range. The relative contribution of the two isoforms to the total activity in enzyme preparations of cells disrupted by two different methods indicates that GR I should be a cytoplasmic isoform and GR II a plastidic isoform. The physiological roles of the GR isoenzymes found in Chlamydomonas are discussed and some of their properties compared with those of GRs isolated from other photosynthetic organisms.Abbreviations GSSG glutathione, oxidized form - GR NAD-PH-glutathione reductase (EC 1.6.4.2) - G3P glyceraldehyde-3-phosphate - pI isoelectric point - SDS-PAGE polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate This work was supported in part by grants NO. PB 87–401, PB 90–99 and BIO 91–1078 of the DGICYT (Ministerio de Educatión y Ciencia, Spain) and the Autonomous Government of Andalusia (Spain). Postdoctoral aid from the Alexander von Humboldt Foundation (Bonn, FRG) to A.S. is also acknowledged.     

Genetic control of triosephosphate isomerase isoenzymes in wheat and rye

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

Fertile progeny of a hybridization between soybean [Glycine max (L.) Merr.] and G. tomentella Hayata

Summary A colchicine-doubled F₁ hybrid (2n=118) of a cross between PI 360841 (Glycine max) (2n=40) x PI 378708 (G. tomentella) (2n=78), propagated by shoot cuttings since January 1984, produced approximately 100 F₂ seed during October 1988. One-fourth of the F₂ plants or their F₃ progeny have been analyzed for chromosome number, pollen viability, pubescence tip morphology, seed coat color, and isoenzyme variation. Without exception, all plants evaluated possessed the chromosome number of the G. max parent (2n=40). Most F₂ plants demonstrated a high level of fertility, although 2 of 24 plants had low pollen viability and had large numbers of fleshy pods. One F₂ plant possessed sharp pubescence tip morphology, whereas all others were blunt-tipped. All evaluated F₂ and F₃ plants expressed the malate dehydrogenase and diaphorase isoenzyme patterns of the G. max parent and the endopeptidase isoenzyme pattern of the G. tomentella parent. Mobility variants were observed among progeny for the isoenzymes phosphoglucomutase, aconitase, and phosphoglucoisomerase. This study suggests that the G. Tomentella chromosome complement has been eliminated after genetic exchange and/or modification has taken place between the genomes.Journal Paper No. J-13776 of the Iowa Agriculture and Home Economics Experiment Station, Ames, IA, USA, Project 2763     

Inheritance and mapping of isoenzymes in pea (Pisum sativum L.)

Summary Three isoenzyme systems (amylase, esterase and glutamate oxaloacetate transaminase) were examined in seeds of pea (Pisum sativum L.) and shown to give clear variation in their band patterns on gel electrophoresis between different lines. The inheritance of these isoenzyme systems, and the location of their genes on the pea genome was investigated. Reciprocal crosses were made between lines, F2 seeds were analysed for segregation in the band patterns of the isoenzymes, and F2 plants were investigated to find linkage between the genes for these isoenzymes and genes for selected morphological markers. The results obtained showed that each of the investigated isoenzyme systems is genetically controlled by co-dominant alleles at a single locus. The gene for amylase was found to be on chromosome 2, linked to the loci k and wb (wb ... 9 ... k ... 25 ... Amy). The gene for esterase was found to be linked with the gene Br (chromosome 4) but the exact location is uncertain because of the lack of the morphological markers involved in the cross. The gene for glutamate oxaloacetate transaminase was found to be on chromosome 1 and linked with the loci a and d (a... 24... Got... 41 ... d).     

Purification,characterization and differential hormonal regulation of a β-1,3-glucanase and two chitinases from chickpea (Cicer arietinum L.)

Chickpea (Cicer arietinum L.) cell-suspension cultures were used to isolate one -1,3-glucanase (EC 3.2.1.29) and two chitinases (EC 3.2.1.14). The -1,3-glucanase (M_r = 36 kDa) and one of the chitinases (M_r = 32 kDa) belong to class I hydrolases with basic isoelectric points (10.5 and 8.5, respectively) and were located intracellularly. The basic chitinase (BC) was also found in the culture medium. The second chitinase (M_r = 28 kDa), with an acidic isoelectric point of 5.7, showed homology to N-terminal sequences of class III chitinases and represented the main protein accumulating in the culture medium. Polyclonal antibodies raised against the basic -1,3-glucanase (BG) and the acidic chitinase (AC) were shown to be monospecific. The anti-AC antiserum failed to recognize the BC on immune blots, confirming the structural diversity between class I and class III chitinases. Neither chitinase exhibitied lysozyme activity. All hydrolases were endo in action on appropriate substrates. The BC inhibited the hyphal growth of several test fungi, whereas the AC failed to show any inhibitory activity. Expression of BG activity appeared to be regulated by auxin in the cell culture and in the intact plant. In contrast, the expression of neither chitinase was apparently influenced by auxin, indicating a differential hormonal regulation of -1,3-glucanase and chitinase activities in chickpea. After elicitation of cell cultures or infection of chickpea plants with Ascochyta rabiei, both system were found to have hydrolase patterns which were qualitatively and quantitatively comparable. Finally, resitant (ILC 3279) and susceptible (ILC 1929) cultivars of chickpea showed no appreciable differences with regard to the time and amount of hydrolase accumulation after inoculation with spores of A. rabiei.Abbreviations AC acidic chitinase - BC basic chitinase - BG = basic -1,3-glucanase - CM-Chitin-RBV carboxymethylated-chitin-remazol brilliant violet - 2,4-D 2,4-dichlorophenoxyacetic acid - ILC international legume chickpea - M_r relative molecular mass - pI isoelectric point - SDS-PAGE sodium dodecyl sulfatepolyacrylamide gel electrophoresis We thank the Deutsche Forschungsgemeinschaft and Fonds der Chemischen Industrie for financial support and ICARDA, Aleppo, Syria, for the provision of seed material. We also thank Dr. B. Fritig (Institut de Biologie Moléculaire des Plantes, CNRS, Straßbourg, France) and Dr. F. Meins, Jr. (Friedrich-Miescher-Institut, Basel, Switzerland) for their kind gifts of antibodies.     

Cytokinin treatment of embryos inhibits the synthesis of chloroplast proteins in Norway spruce

A pulse treatment of Norway spruce (Picea abies (L.) Karst) embryos with the cytokinin N⁶-benzyladenine induces the formation of adventitious buds from subepidermal cells in the hypocotyl and cotyledons. In addition the treatment also inhibits elongation growth, a key process during germination. In this report we demonstrate that these effects on development of the plant are associated with a suppression of the accumulation of several major chloroplast proteins during germination. These proteins include the large subunit of ribulose bisphosphate/carboxylase oxygenase, two subunits of the chloroplast ATPase, protochlorophyllide reductase and a 23000-M_r component of photosystem II. For two nuclear-encoded proteins, the small subunit of ribulose bisphosphate carboxylase/oxygenase and the light-harvesting chlorophyll a/b-binding protein, a corresponding suppression of the increase in the steady-state amounts of mRNA is recorded. The suppression of chloroplast protein synthesis is consistant with the previously documented delay in greening that results from cytokinin treatment, but the effect is opposite to that found in other plants, where cytokinins promote the synthesis of chloroplast proteins, and stimulate chloroplast biogenesis. We believe that this difference is explained by the cytokinin primarily suppressing organ development, and a strict dependance of chloroplast biogenesis on the developmental state of the organs.Abbreviations Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - CF1 coupling-factor 1 of chloroplast ATPase - LHCP light-harvesting chlorophyll a/b-binding protein - LSU large subunit of Rubisco - NADPH-protochlorophyllide oxidoreductase Pchlide reductase - SDS sodium dodecyl sulfate - SSU small subunit of Rubisco We thank K. Hutchison (Dept. of Biochemistry, University of Maine, Orono, Maine, USA) and P. Gustafsson (Dept. of Plant Physiology, University of Umeå, Sweden) for providing the Larix and Pinus clones, and M. Ryberg (Dept. of Plant Physiology, University of Göteborg, Sweden), R. Ölmüller (Botanisches Institut, Universität München, FRG) and W. Lockau (Institut für Botanik, Universität Regensburg, FRG), for the gift of antisera towards Pchlide reductase, RuBPCase and LHCP, and ATPase, respectively. Supported by the Swedish Council for Forestry and Agricultural Research and the Swedish Natural Sciences Research Council.     

Characterization of seven basic endochitinases isolated from cell cultures of Citrus sinensis (L.)

Seven endochitinases (EC 3.2.1.14) (relative molecular masses 23000–28000 and isoelectric points 10.3–10.4) were purified from nonembryogenic Citrus sinensis L. Osbeck cv. Valencia callus tissue. The basic chitinase/lysozyme from this tissue (BCLVC) exhibited lysozyme, chitinase and chitosanase activities and was determined to be a class III chitinase. While BCLVC acted as a lysozyme at pH 4.5 and low ionic strength (0.03) it acted as a chitinase/chitosanase at high ionic strengths (0.2) with a pH optimum of ca. 5. The lysozyme activity of BCLVC was inhibited by histamine, imidazole, histidine and the N-acetyl-d-glucosamine oligosaccharide (GlcNAc)₃. The basic chitinase from cv. Valencia callus, BCVC-2, had an N-terminal amino acid sequence similar to tomato and tobacco AP24 proteins. The sequences of the other five chitinases were N-terminal blocked. Whereas BCLVC was capable of hydrolyzing 13.8–100% acetylated chitosans and (GlcNAc)_4–6 oligosaccharides, BCVC-2 hydrolyzed only 100% acetylated chitosan, and the remaining enzymes expressed varying degrees of hydrolytic capabilities. Experiments with (GlcNAc)_2–6 suggest that BCLVC hydrolysis occurs in largely tetrasaccharide units whereas hydrolysis by the other chitinases occurs in disaccharide units. Cross-reactivities of the purified proteins with antibodies for a potato leaf chitinase (Ab_PLC), BCLVC, BCVC-3, and tomato AP24 indicate that these are separate and distinct proteins.Mention of a trademark, warranty, propriety, or vendor does not constitute a guarantee by the U.S. Department of Agriculture and does not imply its approval to the exclusion of other products or vendors that may also be suitable.Abbreviations Ab antibody - BCLVC basic chitinase/lysozyme cv. Valencia callus - BCVC basic chitinase cv. Valencia callus - CE capillary electrophoresis - CM-chitin-RBV carboxymethyl-chitin-remazol brilliant violet - GlcNAc N-acetyl-d-glucosamine - HEWL hen egg-white lysozyme - M_r relativemolecular mass - pI isoelectric point - PLC potato leaf chitinase - PR pathogenesis-related - SEC size exclusion chromatography We thank Mr. M. Burkhart, Ms. T.-T. Ho, and Ms. M. Doherty for their valuable technical assistance. A portion of the funding for this work was made available from the Citrus Production Research Marketing Order by the Division of Marketing and Development, Florida Department of Agriculture and Consumer Services, Bob Crawford, Commissioner.     

The action of cobra venom phospholipase A2 isoenzymes towards intact human erythrocytes

1. 1. Cobra venom phospholipase A₂ from three different sources has been fractionated into different isoenzymes by DEAE ion-exchange chromatography.

2. 2. Treatment of intact human erythrocytes with the various isoenzymes revealed significant differences in the degree of phosphatidylcholine hydrolysis in those cells.

3. 3. It is argued that the plateaus observed in dose-response curves for such treatments may be caused by an increase in lateral surface pressure within the outer half of the membrane due to the production of free fatty acids and lyso-compounds.

Effects of Cadmium on Antioxidant Enzyme Activities in Sugar Cane

Sugar cane (Saccharum officinarum L. cv. Copersucar SP80-3280) seedlings were grown in nutrient solution with varying concentrations (0, 2 and 5 mM) of cadmium chloride for 96 h. Leaves were analysed for catalase (CAT), glutathione reductase (GR) and superoxide dismutase (SOD) activities. Although a clear effect of CdCl₂ on plant growth was observed, the activity of SOD was not altered significantly. However, the CAT activity decreased as the concentration of CdCl₂ increased. GR exhibits a significant increase in activity at 2 and 5 mM CdCl₂. CAT and SOD isoenzymes were further characterised by analysis in non-denaturing PAGE. Activity staining for SOD revealed up to seven isoenzymes in untreated control and 2 mM CdCl₂ treated plants, corresponding to Cu/Zn-SOD isoenzymes. At 5 mM CdCl₂, only six Cu/Zn-SOD isoenzymes were observed. No Fe-SOD and Mn-SOD isoenzymes were detected. For CAT, one band of activity was observed.