Meiotic Chromosome Pairing, Isozyme Analyses and Ferritin Expression in a Red Clover Mutant Capable of Somatic Embryogenesis

Red clover genotypes capable of regenerating plantletsin vitrofromnon-meristem-derived callus are rare. A previous study identifieda pair of near isogenic lines which were derived from a singleseed but differed in regenerative ability. The callus-derivedplants of this clone were highly regenerative when reintroducedto culture whereas the epicotyl-derived plants produced non-regenerativecallus cultures. The objective of the present study was to observemeiotic chromosome pairing and to compare isozyme profiles andferritin gene expression in regenerative and non-regenerativeplants and cultures from the clone. Meiotic cells exhibitednormal homologous chromosome pairing. Starch gel zymograms fromglasshouse-grown regenerative (F49R) and non-regenerative (F49M)plants failed to show somaclonal variation for alcohol dehydrogenase,glutamate dehydrogenase, esterase or peroxidase. Isoelectricfocusing of callus cultures from regenerative and non-regenerativeplants revealed that regeneration was accompanied by a reductionin staining intensity and numbers of peroxidase bands comparedto non-regenerative cultures. A unique cathodic peroxidase band(pI 7.6) was associated with non-regenerative cultures. Ferritinexpression was greater in callus than in fresh petiole tissue.Ferritin expression remained high in non-regenerative calluscultures but declined in regenerative cultures as regenerationprogressed.Copyright 1999 Annals of Botany Company Trifolium pratenseL., red clover, ferritin, isozymes, meiosis, peroxidase, somatic embryogenesis.     

Constitutive expression of extracellular peroxidase isoenzymes capable of oxidizing 4-hydroxystilbenes during the growth cycle of grapevine suspension cell cultures

The constitutive expression of peroxidase isoenzymes which are capable of oxidizing 4-hydroxystilbenes was studied during the growth cycle of suspension cell cultures from grapevine (Vitis vinifera L. cv. Monastrell) berries. the results showed that the growth of suspension cell cultures is accompanied by the constitutive expression of the peroxidase isoenzymes HSPrx 1 and HSPrx 2, previously characterised by their properties for oxidizing 4-hydroxystilbene, the expression of these isoenzymes being characteristic of Monastrell vines brought to a resistant state. However, although the differential catalytic properties of these grapevine isoenzymes are also shown by the horseradish peroxidase, no immunological relationships have been found between the peroxidases from either source. Communicated by I. MACHáČKOVá     

Expression of cucumber stress-related anionic peroxidases during flower development or a cryptic infective process

The striking diversity in the expression pattern of the stress-related anionic peroxidase was observed during development of female cucumber flower. While the isoenzyme Prx3 was accumulated constitutively in the course of flower development, the expression patterns of other two isoenzymes (Prx1 and Prx2) were restricted to the period after flower opening. The virus infection was simulated by careful opening of the intact female flower buds 3 d before anthesis followed by exposition to the glasshouse environment for 3 d. The results obtained in this experiment revealed a marked accumulation of the isoenzyme Prx1 and Prx2 at anthesis. Under normal flower development, the pistils did not accumulate these isoenzymes at this stage. In contrast, the pattern of expression of Prx3 as well as of the pistil-specific peroxidase isoenzyme remained unchanged, confirming a constitutive type of expression. Beside the pistil, a 3-d exposition of the stripped flowers resulted in a marked accumulation of Prx1 and Prx2 isoenzymes also in both adjacent flower organs - the ovary and the pedicel. At the same time of the normal development of female flower these organs did not accumulate these isoenzymes.     

The Subcellular Localization of Isoperoxidases in Capsicum annuum Leaves and their Different Expression in Vegetative and Flowered Plants

The subcellular localization of leaf peroxidases (EC 1.11.1.7)and their expression in vegetative and flowered plants has beenstudied in Capsicum annuum (var. annuum) in order to assesswhether the expression of new peroxidase isoenzymes can characterizethe floral state which determines the beginning of reproductivedevelopment. The results showed that floral development is accompaniedby a significant increase in the level of soluble (non-sedimentable)leaf peroxidase, independently of leaf position along the internodes,and therefore independently of the leaf age. An analysis ofthe leaf peroxidase isoenzyme patterns along the internodesfor vegetative and flowered plants shows that the increase inperoxidase activity is due to a general increase in the activityof all the pre-existing peroxidase isoenzymes, although isoenzymeB₂ and, especially, isoenzyme A₁ showed a distinctive and majorincrease in activity. These two isoenzymes are mainly ionically-boundto cell walls, probably in equilibrium with the same isoenzymesmoving freely in the cell-wall free spaces. The differs fromother peroxidase isoenzymes, such as isoperoxidase B₆, whichis mainly located in the covalently-bound cell-wall fractionand in mesophyll vacuoles. These results are discussed in thelight of a possible role of cell wall peroxidases as markersof the floral state in Capsicum annuum morphogenesis.Copyright1993, 1999 Academic Press Capsicum, floral state, leaf peroxidases, subcellular localization, vegetative state     

Embryos and Plantlets from Cultured Anthers of Hybrid Grapevines

Embryos and plantlets were produced in large numbers from callusformed by cultured anthers of hybrid grapevines (Vitis viniferax Vitis rupestris). Anthers of Vitis vinifera produced smallamounts of callus or failed to grow in vitro. For embryo formationanthers containing uninucleate microspores were chilled (4 °C)for 72 h before culture with Nitsch medium containing 2, 4-D(5µM) and benzyladenine (1 µM). Highest yields ofembryos were with anthers cultured in darkness. For productionof normal plantlets embryos required chilling (4 °C) for2 weeks. Unchilled embryos produced mainly abnormal plantlets.Chilling was effective in promoting plantlet growth when appliedat any stage of embryogeny. In grapes ability to produce plantlets from cultured anthersis a genetically-determined trait and maleness, as distinctfrom hermaphroditism, may be a predisposing factor. Callus derivedfrom anthers contained both haploid and diploid cells but allplantlets produced so far are diploid. The genetic constitutionof plantlets, whether they are diploids of somatic origin ordiploids from spontaneously doubled haploid cells, is not yetknown and is being determined by standard genetic methods.     

Levels of 4-hydroxystilbene-oxidizing isoperoxidases related to constitutive disease resistance in in vitro-cultured grapevine

A zymographic screening of peroxidases (EC 1.11.1.7) capable of oxidizing 4-hydroxystilbene was carried out by means of the peroxidase-catalyzed oxidative coupling of 4-hydroxystilbene and 4-aminoantipyrine. This screening reveals that only a few isoperoxidases are active in oxidizing 4-hydroxystilbene to viniferin-type compounds in in vitro cultures of grapevine. Unlike total peroxidase activity measured with 4-methoxy--naphthol, the levels of total peroxidase activity measured using 4-hydroxystilbene are related to disease resistance against downy mildew in axillary bud cultures of Vitis vinifera and (Vitis vinifera x Vitis rupestris) x Vitis riparia. From this observation, and using the above zymographic assay, it was found that a 4-hydroxystilbene-oxidizing isoperoxidase was overexpressed in both leaves and stems of the hybrid in relation to the increase in disease resistance of this species. These results suggest that constitutive 4-hydroxystilbene-oxidizing isoperoxidases may participate through their role in viniferin synthesis in the constitutive resistance mechanism that grapevines show against downy mildew.Abbreviations 4-AAP 4-aminoantipyrine - HRP horseradish peroxidase - 4-HS hydroxystilbene - HSPrx 4-hydroxystilbene-oxidizing peroxidase - 4-MN 4-methoxy--naphthol     

Differential expression of a cell wall-localized peroxidase isoenzyme capable of oxidizing 4-hydroxystilbenes during the cell culture of grapevine (Vitis vinifera cv. Airen and Monastrell)

Differential expression and localization of peroxidase isoenzymes capable of oxidizing 4-hydroxystilbenes was studied during establishment of callus cultures from Vitis vinifera Airen (anthocyanin-non accumulating) and Monastrell (anthocyanin-accumulating) berries. Callus formation from mesocarp tissues was accompanied by differential expression of several peroxidase isoenzyemes located in cell walls, among which only peroxidase isoenzyme A₁ was capable of oxidizing 4-hydroxystilbene to any great extent. Likewise, grape cell cultures were capable of accumulating the grape stilbene phytoalexin, resveratrol. However, -viniferin, the most powerful phytoalexin in grapevines and previously considered as the product of peroxidase-mediated oxidative coupling of two resveratrol moieties, was only detectable in trace amounts. Since grapevine suspension cell cultures were unable to produce H₂O₂ as revealed by the luminol test, H₂O₂ production by the cultured cells appears to be one of the main factors which limits resveratrol oxidation in the cell walls of grapevine cells cultured in suspension.     

Expression of Oat-phyA-cDNA in a Suspension Cell Culture of Transgenic Tobacco: A Single-Cell System for the Study of Phytochrome Function

A culture of callus cells has been developed from a transgenicline of tobacco which contains an introduced phyA-cDNA encodingphytochrome A. Suspension cultures of the cells were shown toaccumulate a significant immunodetectable level of the heterologousphytochrome, but not of the native phyA-gene product. The red-irradiatedform (P_fr) of the heterologous phytochrome was specificallydegraded in vivo, and the red-irradiated (P_fr) and far-red-irradiated(P_r) forms demonstrated different patterns of in vitro proteolyticcleavage. These results strongly suggested that the phytochromeapoprotein was associated with a chromophore moiety which mediatedred/far-red sensitive conformational changes of the molecule.Exogenous application of 4-amino-5-hexynoic acid (AHA) to thetransgenic suspension cultures resulted in the accumulationof a population of phytochrome which was stable under red lightand gave identical patterns of in vitro digestion in the redand far-red irradiated forms, i.e. the spectral activity ofphytochrome was inhibited. Application of exogenous 5-aminolevulinicacid (ALA) or biliverdin overcame the inhibitory effects ofAHA to restore spectral sensitivity of the phytochrome pool.These results are consistent with the proposed pathway of phytochromechromophore biosynthesis in intact plant systems. Thus, thetransgenic suspension cultures provided a single-cell systemin which spectrally-active phytochrome, apparently indistinguishablefrom the native phytochrome synthesized in etiolated seedlings,was accumulated. Photoregulation of expression of the genesencoding the small subunit of ribulose-1,5-bisphosphate carboxylaseand chlorophyll a/b binding proteins demonstrated that the heterologousphytochrome population mediated rapid changes in gene expressionin the de-differentiated cells. It is therefore proposed thatsuch a suspension culture of transgenic cells offers a modelsystem for the study of phytochrome function. Key words: Cell cultures, transgenic tobacco, phytochrome, oat-phy A-cDNA, gene expression     

A Basic Peroxidase Isoenzyme, Marker of Resistance Against Plasmopara viticola in Grapevines, is Induced by an Elicitor from Trichoderma viride in Susceptible Grapevines

The constitutive expression of basic peroxidase isoenzymes in the Plasmopara viticola -resistant ( Vitis vinifera × Vitis rupestris) × Vitis riparia crossing and in the P. viticola -susceptible V. vinifera parent species was studied. The results illustrate that both leaves and stems of the ( V. vinifera × V. rupestris) × V. riparia crossing showed the differential expression of a basic peroxidase isoenzyme B₃ (pl = 8.9), this being almost completely absent from the P. viticola -susceptible V. vinifera parent species. To test whether the basic peroxidase isoenzyme B₃ may be considered as a molecular marker of disease resistance in Vitis spp., suspension cell cultures derived from the P. viticola -susceptible V. vinifera parent species were treated with an elicitor (cellulase Onoztika R-10) from the soil fungus Trichoderma viride , a specific and well-known elicitor of disease resistance reactions in grapevines. The results showed that treatment with the elicitor induces, simultaneously with the activation of the disease resistance mechanism, the appearance of B₃ in the cell cultures. These results suggest that the basic peroxidase isoenzyme B₃ may be considered as a marker of disease resistance in Vitis species since it is present in the P. viticola -resistant ( V. vinifera × V. rupestris) × V. riparia hybrid and is induced by the elicitor Onozuka R-10 in cell cultures of the P. viticola -susceptible Vitis vinifera parent species. This conclusion is supported by the presence of this isoenzyme in other resistant and its absence in other susceptible Vitis spp.     

Radiation-induced Organogenesis and Isoenzyme Patterns in Long-term Callus Cultures of Datura innoxia

Effect of gamma irradiation on growth, shoot organogenesis andenzyme activities and isoenzyme patterns of -amylase and peroxidaseduring differentiation in long-term calluses of Datura innoxiahave been investigated. Radiation in doses of 0.2 and 1.0 kRstimulated the shoot regeneration frequency as well as the numberof shoots per regenerating callus. The 0.2 kR dose could induceshoot organogenesis even in calluses incubated in the dark oncallusing medium, although with less frequency. Such cultures,however, showed profuse shoot regeneration when sub-culturedonto regeneration medium under light conditions. A higher radiationdose (5.0 kR) was lethal to both growth and shoot differentiation.Prior to shoot regeneration, -amylase and peroxidase specificactivities increased to four- to fivefold and 7–24-fold,respectively. While the amylase isoenzyme pattern remained unchanged,specific changes in the isoperoxidase pattern were observedduring shoot differentiation in callus cultures. The most significantchange was the appearance of fast-moving anodic bands priorto visible shoot differentiation. Thus, such isoperoxidasesprovide useful biochemical markers for shoot differentiation. Datura innoxia, shoot organogenesis, isoenzyme pattern, gamma-radiation, growth regulators     

Advances in our understanding of peroxiredoxin,a multifunctional,mammalian redox protein

Abstract

Organisms living under aerobic conditions have developed various anti-oxidative mechanisms to protect them from damage by reactive oxygen species (ROS). A novel family of anti-oxidative proteins, designated as peroxiredoxin (Prx), has been identified in the past two decades and currently comprises six members in mammals. They share a common reactive Cys residue in the N-terminal region, and are capable of serving as a peroxidase and involve thioredoxin and/or glutathione as the electron donor. Prx1 to Prx4 have an additional Cys residue in the conserved C-terminal region, and are cross members as judged by the amino acid sequence similarity. Prx5 also contains an additional Cys in its C-terminal region which is less conserved. On the other hand, Prx6 has only one unique Cys. These Prx family members are distributed in the cytosol, mitochondria, peroxisome and plasma, all of which are potential sites of ROS production. In addition to their role as a peroxidase, however, a body of evidence has accumulated to suggest that individual members also serve divergent functions which are associated with various biological processes such as the detoxification of oxidants, cell proliferation, differentiation and gene expression. It would be expected that these functions might not necessarily depend on peroxidase activity and, therefore, it seems likely that the divergence is due to unique molecular characteristics intrinsic to each member. A comparative study of the divergence would lead to a better understanding of the biological significance of the Prx family.     

Expression of defence-related peroxidases Prx7 and Prx8 during abiotic stresses in barley roots

The expression of defence-related peroxidases Prx7 and Prx8 in barley roots grown under selected abiotic stress conditions (toxic metals: Cd, Al, Co, Cu, Hg; drought, salinity, extreme temperatures: heat, cold) and compounds activating (2,4-D) or inhibiting (SHAM) POD activity as well as H₂O₂ and H₂O₂ scavenger (DTT) was characterized. Strong Cd concentration dependent expression of Prx8 peroxidase gene was observed, which correlated with root growth inhibition induced by Cd- and some other stress factors (heavy metals, heat and salinity). Application of H₂O₂ did not cause changes in expression of Prx8, but H₂O₂ scavenger (DTT) as well as the inhibitor (SHAM) and the activator (2,4-D) of PODs induced increase in Prx8 expression. Our results demonstrate that root growth inhibition during any disturbance of active oxygen species (AOS) in root tissue is correlated with up-regulation of Prx8 gene expression in barley roots.     

Intracellular Localization and Properties of NADH-Glutamate Dehydrogenase from Vitis vinifera L.: Purification and Characterization of the Major Leaf Isoenzyme

Glutamate dehydrogenase was partially purified from grapevine(Vitis vinifera L. cv. Soultanina) tissues and its activityand isoenzymic pattern were studied. Seven anodal migratingisoenzymes were revealed after PAGE. Leaf protoplasts were isolatedfrom in vitro-grown axenic shoot cultures and used to studythe intracellular localization of GDH. Results revealed thatthe enzyme was associated with the mitochondrial fraction. Theisoenzyme with the lowest electrophoretic mobility, which accountedfor 35 to 40% of total activity, was purified 2050-fold to homogeneityfrom leaves. The purification method included ammonium sulphatefractionation, DEAE-cellulose chromatography, Sephadex G-200gel filtration and NAD-sepharose affinity chromatography. Themolecular weight of the native enzyme was estimated to be 252kDa and it consisted of identical 42.5 kDa subunits. pH optimumfor the aminating reaction was 8.0 and for the deaminating reaction9.3. At optimum pH conditions the apparent K_m values for ammonium,as ammonium chloride and ammonium sulphate, -ketoglutarate,NADH, glutamate, and NAD⁺ were 45.0, 13.0, 2.1, 0.069, 18.0,and 0.195 mM, respectively. The amination reaction of GDH wasfully activated with about 100 µM Ca²⁺ while the deaminationreaction was not affected by the addition of Ca²⁺. The isoenzymesof GDH showed different magnitude of their activating responseto calcium ions. Key words: Vitis vinifera L., glutamate dehydrogenase     

T-LAK Cell-originated Protein Kinase (TOPK) Phosphorylation of Prx1 at Ser-32 Prevents UVB-induced Apoptosis in RPMI7951 Melanoma Cells through the Regulation of Prx1 Peroxidase Activity

Protein kinases are potential targets for the prevention and control of UV-induced skin cancer. T-cell-originated protein kinase (TOPK) is highly expressed in skin cancer cells, but its specific function is still unknown. We investigated the role of TOPK in UVB-induced apoptosis in RPMI7951 human melanoma cells. Liquid chromatography-tandem mass spectrometry analysis was used to identify proteins that bind with TOPK. Immunofluorescence, Western blot, and flow cytometry were used to assess the effect of UVB on TOPK, peroxiredoxin 1 (Prx1), and apoptosis in RPMI7951 cells. TOPK binds with Prx1 and its phosphorylation of Prx1 at Ser-32 is important for regulation of H₂O₂-mediated signal transduction. Analysis of the CD spectra of Prx1 and mutant Prx1 (S32A) proteins showed that the secondary structure of Prx1 was significantly altered by phosphorylation of Prx1 at Ser-32. UVB irradiation induced phosphorylation of TOPK in RPMI7951 human melanoma cells and phosphorylated TOPK co-localized with Prx1 in the nucleus. UVB induced the peroxidase activity of Prx1 in vitro and ex vivo. Following treatment with UVB, H₂O₂ levels and apoptosis were increased in RPMI7951 cells stably expressing TOPK siRNA or stably mutant Prx1 (S32A). Phosphorylation of Prx1 (Ser-32) by TOPK prevents UVB-induced apoptosis in RPMI7951 melanoma cells through regulation of Prx1 peroxidase activity and blockade of intracellular H₂O₂ accumulation.