Electrophoretic study of heating in situ on proteins and enzymes in germinated Arachis hypogaea cotyledons: Comparison with dormant seed

-Cotyledons from 5-day germinated seed of Arachis hypogaea were heated in a moisturized chamber at temperatures from 25 to 121°. Proteins were extracted in phosphate buffer and analyzed with horizontal starch gel electrophoresis to determine the effect of heat on migration patterns of soluble proteins, malate dehydrogenase, glutamate dehydrogenase, leucine aminopeptidase, peroxidases and nonspecific esterases. The intensity of staining of soluble proteins from 5-day cotyledons began decreasing at 80–90°; very little staining occurred at 100° with the exception of a distinct band at R_f 1·0. Glutamate dehydrogenase and benzidine peroxidase retained some activity at 80° but other enzymes were inactivated at temperatures near 65°. Differential heat sensitivities of isoenzymes were obvious. Heat did not alter the R_f values of the bands of soluble proteins or enzymes but influenced the intensity of staining. Two-year storage at 4° of viable seed and 33-month storage at -10° of frozen extracts from dormant seed had no influence upon migration patterns of soluble proteins and enzymes assayed.     

Peroxidase activities in bull spermatozoa

The present study was carried out to determine the localization of peroxidase activity in bull spermatozoa. 3,3′-Diaminobenzidine (DAB) was used as a substrate for revealing peroxidase activity, and light and electron microscopic analysis of the results obtained was performed. Peroxidase activity was detected in the mitochondria of the middle piece and the outer acrosomal membrane. Catalase was excluded as an enzyme, catalyzing the detected peroxidase activity. Concerning the biochemical properties of bull sperm peroxidases, peroxidase activity was found to be manifested in a large pH range, 4–10.5. Bull sperm peroxidase activity appeared to be temperature sensitive and azide sensitive and could be readily inhibited by phenylhydrazine. Electrophoretic analysis of the proteins from bull sperm extracts separated in a Davis-Ornstein system of 7% polyacrylamide gel, followed by the determination of peroxidase activity on the polyacrylamide gels, revealed that all 14 sperm protein fractions available on the gel possessed peroxidase when benzidine was used as a substrate. The possible reasons for the electrophoretic heterogeneity of bull sperm peroxidases are discussed. © 1994 Wiley-Liss, Inc.     

The isozymic similarity of indoleacetic Acid oxidase to peroxidase in birch and horseradish

The relationship of indoleacetic acid oxidase activity to peroxidase activity is complicated by numerous multiple forms of this enzyme system. It is not known if all isozymes of this complex system contain both types of activity. Isozyme analysis of commercial horseradish peroxidase and leaf extracts of yellow birch (Betula alleghaniensis) by isoelectric focusing in polyacrylamide gels was used to examine this problem. Horseradish and birch exhibited 20 and 13 peroxidase isozymes, respectively, by staining with benzidine or scopoletin. Guaiacol was less sensitive. Indoleacetic acid oxidase staining (dimethylaminocinnamaldehyde) generally showed fewer bands, and left doubt as to the residence of both types of activity on all isozymes. Elution of the isozymes from the gels and wet assays verified that all peroxidase isozymes contained indoleacetic acid oxidase activity as well. Estimation of oxidase to peroxidase ratios for the major bands indicated small differences in this parameter. A unique isozyme for one or the other type of activity was not found.     

Differential identification of mouse granulocyte (CFU-g) and macrophage (CFU-m) precursors in plasma clots

Because benzidine and its derivatives have possible carcinogenic activity, a safe method is needed to demonstrate endogenous peroxidase activity. Colonies derived from mouse bone marrow cells in plasma clot culture were classified as granulocyte (CFU-g) or macrophage (CFU-m) precursors by peroxidase and naphthol AS acetate (NASA) esterase staining, respectively. Endogenous peroxidase activity was measured using benzidine or p-phenylenediazine-pyrocatechol (PPD-PC). The effectiveness of peroxidase staining with both reagents was evaluated under several conditions, and the enzyme property was confirmed by inactivation with a variety of inhibitors. The level of peroxidase activity did not differ significantly between PPD-PC and benzidine. Colony number and number of cultured cells were strongly correlated (P greater than 0.983). We conclude that PPD-PC safely demonstrates peroxidase activity in cultured cells and is as accurate, reliable, and efficient as benzidine.     

Effects of auxin,cytokinin, ethrel and cotyledon excision on the peroxidase activity in cotylar buds of decapitated pea (Pisum sativum L.) plants

In decapitated pea plants an increased peroxidase activity ocours after the cotyledon excision in cotylars growing in axillas of cotyledons prior to the growth of excised cotylars. It was found that peroxidase plays an important role in this correlation. Auxin applied on epicotyl stumps inhibited the growth of cotylars and the removal of this inhibition by cytokinin or ethrel was associated with an increased peroxidase activity followed by the growth of cotylars situated in axillas of treated cotyledons.     

Substrate specificity of peroxidase isoenzymes for hydrogen donors

The investigation of the substrate specificity of the anionic peroxidase isoenzymes, isolated from the zone of differentiation of the primary roots ofZea mays, for some representatives of phenolic compounds and aromatic amines, as hydrogen donors, is reported. The investigation was carried out electrophoretically with peroxidase isoenzymes partially purified by a combination of gel filtration by Sephadex G-25 and Sephadex G-100. A difference in the substrate specificity of the individual isoenzymes is observed. It was established that the anionic peroxidase isoenzymes showed a similarity in total number and relative activity on staining with bivalent phenols and difference on staining with trivalent phenols, as hydrogen donors. A greater number of isoenzymes was stained with benzidine ando-dianisidine and a lesser number witho- andp-phenylendiamine. The substrate specificity of the peroxidase isoenzymes was compared for guaiacol and benzidine. The substrate specificity of peroxidase soenzymes was discussed as regards their diverse role in the plant metabolism.     

Relationships between peroxidases and in vitro bulbification in garlic (Allium sativum L.)

Summary The relationship between in vitro bulbification and peroxidase activities of garlic (Allium sativum L.) was studied. Two stages could be distinguished during in vitro bulb formation characterized by the peroxidase activity, isoenzymatic patterns especially of the soluble fractions, dry weight, and bulbification index (BI). The first stage, called the morphogenic stage, started after planting until 30d of culture with a maximum soluble peroxidase activity, BI=1–0.5 and low dry weight. At that time axillary buds preformed at the base of the leaves grew and the in vitro bulb was generated. The second stage (filling in and bulb maturation) started when the BI reached 0.5 at 30 d of the ontogenic cycle, as a result of the bulb assimilate accumulation phenomenon. During the morphogenic stage the soluble peroxidase activity was maximum and the zymograms showed higher intensity bands. The second stage presented anodic ionic peroxidases and substantial increase in staining of the anodic covalent peroxidase fraction. The putative role of the different isoforms of peroxidases in relation to the bulbification process is discussed.     

Biochemical changes in primary wheat leaves during growth and senescence

Changes in the different forms of the total activity of peroxidases (soluble, ionically and covalently bound), in the soluble isoperoxidase composition, and in the content of protein and chlorophyll during growth and senescence of the intact primary leaves of spring wheat were studied. The forms of peroxidases are in inverse relationship to the growth and increase during development and senescence, especially towards the end of senescence. The activity of peroxidases does not follow the physiological age of wheat leaves during the whole period of vegetation unlike the contents of protein and chlorophyll. The intensity of anodic and cathodic peroxidase isoenzyme bands 1 and 5 increases during senescence, but anodic bands number 2 and 4, cathodic bands 2 and 3 decrease. Changes in the activity of peroxidases and in the content of protein and chlorophyll as indicators of senescence are discussed.     

Specific indication of hemoproteins in polyacrylamide gels using a double-staining process

Hemoproteins were revealed in polyacrylamide gels in the presence of sodium dodecyl sulfate by staining with different benzidine derivatives. When the protein samples were treated with either beta-mercaptoethanol or dithiothreitol, a significant decrease in peroxidase activity of the proteins possessing noncovalently bound heme led to diminished staining. However, when Coomassie blue R-250 staining followed the hemespecific stain it was observed that the hemoprotein bands stained more intensely than duplicate sample bands that had been stained only with the Coomassie blue R-250. This staining property allows the indication of hemoproteins in gels even after the peroxidase yield has been significantly depleted by reducing agents.     

On Extraction and Quantitation of Plant Peroxidase Isoenzymes

Peroxidase in tobacco callus tissue differed in extract-ability depending on the subcellular distribution of the enzyme. Based on extractability it consisted of four fractions: freely soluble and less freely soluble in phosphate buffer, KCl-soluble, and insoluble. The latter two fractions were un-extractable by a phosphate buffer alone. The different fractions contained varied proportions of peroxidase isoenzymes. The extractability of indoleacetic acid oxidase was similar. A medium of high ionic strength is essential for quantitative extraction of peroxidase and indoleacetic acid oxidase isoenzymes. For quantitation of isoperoxidase activity on polyacryl-amide gel following electrophoretic separation, benzidine and o-dianisidine were better hydrogen donors than guaiacol and pyrogallol. The optimum pH was 4.5, but a citrate buffer was inhibitory. The optimum conditions included an acetate buffer at pH 4.5, a substrate concentration of 0.03 %, benzidine as the hydrogen donor, and a 3-minute treatment with 7 % acetic acid after staining. The color intensity of the bands remained unchanged for at least three days. With appropriate sample size and reaction time there was a linear relationship between enzyme concentration and activity.     

Aminopeptidase activity associated with alpha1-conarachin (peanut protein)

Aminopeptidases were investigated in protein extracts of dormant and germinated peanut cotyledons by electrophoretic immunochemical techniques. Considerable activity was observed in protein zones that migrated toward the anode after simple electrophoresis. Of the immunogenic proteins in dormant seed, aminopeptidase activity was associated only with the immunocomplex of α₁-conarachin, a globular protein in peanuts. The specific aminopeptidase activity of total extracts was marginally higher than that of purified α-conarachin. Specific iso-enzyme(s) adsorption on the antigen-antibody complex of α₁-conarachin might be attributed in part, to these phenomena. Reactions of protein extracts from germinated cotyledons with immune sera made against protein in germinated tissues—roots and cotyledons—showed the identical associative interaction. Some of the determinant groups on α₁-conarachin in the germ and cotyledon were apparently maintained during early phases of germination.     

Changes of aspartate aminotransferase activity, its isoform pattern, and free amino acids content in peanut cotyledons during seed germination

After imbibition of peanut seeds, the concentration of free amino acids in cotyledons increases probably due to hydrolysis of reserve proteins. That increase was accompanied by a stimulation of aspartate aminotransferase (AAT, EC 2.6.1.1) activity especially pronounced between first and sixth day of imbibition. Peanut cotyledons contained several AAT isoforms which could be visualized after polyacrylamide gel electrophoresis (PAGE). Native PAGE of extracts from cotyledons of dry seeds demonstrate three active bands. The intensity of these bands increased reaching a maximum after 6th day of imbibition. An additional band appears transientely on 6th day, but is not visible after 14 days of incubation. A fastest band appears on this latter day. If germination takes place under hypersalinity conditions. the AAT activity severely diminishes and the free amino acid concentration raises. The possibilities of different types of AAT regulation are discussed.     

Evolution de l'activite auxines-oxydasique et peroxydasique lors de l'induction photoperiodique et de la sexualisation de l'epinard

(Evolution of the auxin-oxidase and peroxidase activity duringthe spinach's photo-periodic induction and sexualisation) Protein extracts, prepared from spinach leaves, are analysedafter a gel chromatography on Sephadex G-100 and SE-SephadexC-50. The photoperiodic induction seems related with a fallof the auxin-oxidase and peroxidase activities we observe achange in the isozyme number and pattern. The female plants have more isozymes, but the enzymatic activityis higher in the male plants. The destruction of the indole-3-acetic acid, in spinach, isnot strictly related to the peroxidases. (Received September 14, 1971; )     

Antigenic relationships between petunia peroxidase a and specific peroxidase isoenzymes in other Solanaceae

Summary A highly specific rabbit antiserum raised against peroxidase (PRXa) from petunia (Petunia hybrida) was used to investigate the antigenic relatedness of peroxidases in the Solanaceae. After SDS-PAGE of crude leaf extracts from a large number of species of this family, immunoblotting revealed that cross-reacting protein bands were present in all species tested. In order to determine whether these protein bands represent peroxidases, the peroxidase isoenzymes in thorn apple (Datura stramonium L.), tobacco (Nicotiana tabacum L.), sweet pepper (Capsicum annuum L.), potato (Solanum tuberosum L.), and tomato (Lycopersicon esculentum Mill.) were further analyzed. Immunoblots obtained after native PAGE revealed that the antiserum only recognized fast-moving peroxidase isoenzymes that are localized in the apoplast. Despite their serological relatedness, these peroxidases differed with respect to heat stability and apparent molecular weight. Differences in avidity for the petunia PRXa antiserum were suggested by immunoprecipitation with antibodies bound to protein A-Sepharose. The antiserum did not react with peroxidases from horseradish (Armoracea rusticana Gaertn., Mey and Scherb), turnip (Brassica napus L.), African marigold (Tagetes cresta L.), maize (Zea mays L.), and oats (Avena sativa L.). Apparently, the Solanaceae contain orthologous genes encoding the fast-moving anionic peroxidases homologous to petunia PRXa.     

Sugar accumulation in growing subhooks of etiolated Pisum sativum seedlings - Stimulation of sugar exudation and invertase activity in epicotyls by gibberellic acid

The epicotyl of 5-day-old derooted cuttings of pea ( Pisum sativum L. cv. Alaska) with and without cotyledons exuded sucrose and glucose in the presence of EDTA. The amount of sugars exuded was greatly affected by the position at which the epicotyl was cut. The largest amount of sugars was exuded when the epicotyl was cut 2 mm below the hook, leaving the growing subhook. Gibberellic acid (GA) substantially increased the amount of sugars exuded from the epicotyl in the presence of cotyledons but only slightly in their absence. GA stimulated sugar exudation from the cotyledonary node as well as from the epicotyl. In cuttings with cotyledons, GA enhanced invertase activity in the apoplast, and in the intraceUular soluble and bound fractions in the growing subhook. In decotylized cuttings, GA enhanced only soluble invertase activity. GA did not affect invertase activity in the epicotyl below the subhook. These results suggest that GA stimulates sugar accumulation in the growing subhook by stimulating not only phloem loading of sucrose in the cotyledons but also unloading in the subhook.     

Indolylacetic acid oxidase in dormant apple embryos

The IAA oxidase activity was studied during the culture of dormant apple embryos. The effect of different factors on this enzyme activity was investigated either by adding them to the reaction mixture or to the culture medium. Phloridzin was found to be the best phenolic cofactor. The development of IAA oxidase activity was stimulated by phloridzin and GA₃. The properties of apple embryos IAA oxidase allow to postulate the presence of two enzyme systems able to oxidize IAA in the material studied. The involvement of peroxidase activity in IAA oxidation was also investigated. The differences in the changes of peroxidase and IAA oxidase activities during the culture of dormant apple embryos do not permit to consider the activity of peroxidases to be identical with that of IAA oxidase.     

Induction of 33-kD and 60-kD Peroxidases during Ethylene-Induced Senescence of Cucumber Cotyledons

Ethylene enhanced the senescence of cucumber (Cucumis sativus L. cv `Poinsett 76') cotyledons. The effect of 10 microliters per liter ethylene was inhibited by 1 millimolar silver thiosulfate, an inhibitor of ethylene action. An increase in proteins with molecular weights of 33 to 30 kilodaltons and lower molecular weights (25, 23, 20, 16, 12, and 10 kilodaltons) were observed in sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels after ethylene enhanced senescence. The measurement of DNase and RNase activity in gels indicated that these new proteins were not nucleases. Two proteins from ethylene-treated cotyledons were purified on the basis of their association with a red chromaphore and subsequently were identified as peroxidases. The molecular weights and isoelectric points (pI) of two of these peroxidases were 33 kilodaltons (cationic, pI = 8.9) and 60 kilodaltons (anionic, pI = 4.0). The observation that [³⁵S]Na₂SO₄ was incorporated into these proteins during ethylene-enhanced senescence suggests that these peroxidases represent newly synthesized proteins. Antibodies to the 33-kilodalton peroxidase precipitated two in vitro translation products from RNA isolated from ethylene-treated but not from control cucumber seedlings. This indicates that the increase in 33-kilodalton peroxidase activity represents de novo protein synthesis. Both forms of peroxidase degraded chlorophyll in vitro, which is consistent with the hypothesis that peroxidases have catabolic or scavenging functions in senescent tissues.     

Oxidation of Benzidine and Its Derivatives by Thyroid Peroxidase

Human thyroid peroxidase (hTPO) catalyzes a one-electron oxidation of benzidine derivatives by hydrogen peroxide through classical Chance mechanism. The complete reduction of peroxidase oxidation products by ascorbic acid with the regeneration of primary aminobiphenyls was observed only in the case of 3,3',5,5'-tetramethylbenzidine (TMB). The kinetic characteristics (k(cat) and K(m)) of benzidine (BD), 3,3'-dimethylbenzidine (o-tolidine), 3,3'-dimethoxybenzidine (o-dianisidine), and TMB oxidation at 25 degrees C in 0.05 M phosphate-citrate buffer, pH 5.5, catalyzed by hTPO and horseradish peroxidase (HPR) were determined. The effective K(m) values for aminobiphenyls oxidation by both peroxidases raise with the increase of number of methyl and methoxy substituents in the benzidine molecule. Efficiency of aminobiphenyls oxidation catalyzed by either hTPO or HRP increases with the number of substituents in 3, 3', 5, and 5' positions of the benzidine molecule, which is in accordance with redox potential values for the substrates studied. The efficiency of HRP in the oxidation of benzidine derivatives expressed as k(cat)/K(m) was about two orders of magnitude higher as compared with hTPO. Straight correlation between the carcinogenicity of aminobiphenyls and genotoxicity of their peroxidation products was shown by the electrophoresis detecting the formation of covalent DNA cross-linking.     

Peroxidase and Glucose-6-phosphate Dehydrogenase Levels in Cotyledons of Cucumis sativus (L.)

Peroxidase and glucose-6-phosphate dehydrogenase become increasinglyactive in cucumber cotyledons excised from the plant althoughthere is a fall in total protein content. The increases areinhibited by dinitrophenol, D, and L-threo-chloramphenicol,cycloheximide, puromycinj and actinomycin D, and it is concludedthat the enzymes are synthesized de novo. Disc electrophoresisof cotyledon extracts revealed three bands of peroxidase, oneof which becomes much enhanced in excised cotyledons. Citrullineaccumulates markedly in excised cotyledons. If the shoot ofcucumber plants is cut away above the cotyledons, very largeincreases in peroxidase and glucose-6-phosphate dehydrogenaseare observed although yellowing and protein loss are delayed.     

Overexpression of the endogenous peroxidase-like gene spi 2 in transgenic Norway spruce plants results in increased total peroxidase activity and reduced growth

Peroxidases constitute a large family of proteins found in all higher plants. Owing to the complexity of the peroxidase isoenzyme family it has been difficult to assess the precise function of individual peroxidase enzymes. In this work we have studied the effects of an endogenous peroxidase-like gene from Norway spruce [Picea abies (L.) Karst], spi 2, on the development and growth of Norway spruce somatic embryo plants. Embryogenic cells of Norway spruce transformed with spi 2 under control of the maize ubi-1 promoter showed up to 40 times higher total peroxidase activity than the control cells; regenerated plants overexpressing spi 2 showed an increased total peroxidase activity. Based on these results and the overall sequence similarity with cationic peroxidases we conclude that spi 2 encodes a peroxidase. Overexpression of spi 2 resulted in increased sensitivity to stress, leading to a reduction in epicotyl formation and in height growth compared with control plants. The plants overexpressing spi 2 also showed a deeper phloroglucinol staining but similar levels of Klason lignin.