Improved procedure for detection of superoxide dismutase isoforms in potato,Solanum tuberosum L.

Superoxide dismutase (SOD) in-gel activity assay with selective inhibitors (KCN and H₂O₂) is one of the most commonly used methods for identification of SOD isoform types, i.e., FeSOD, MnSOD or Cu/ZnSOD, and evaluation of oxidative stress response in plants. However, there are potential pitfalls that surround this assay, such as problem to detect isoforms with low activity, comigration of SOD isoforms or application of inappropriate inhibitor concentration. We propose an improved method based on the combination of in-gel analysis of SOD activity and native-PAGE immunoblotting for identification of isoforms and determination of SOD isoenzyme activity pattern in potato. Depending on cultivar and growing conditions, one MnSOD, 3 FeSOD and 5–6 Cu/ZnSOD isoforms were identified in potato leaves. The most important qualitative difference between ex vitro- and in vitro-grown plants was the presence of additional FeSOD and Cu/ZnSOD isoforms in plantlets grown in vitro. Compared with results of in-gel activity assay with selective inhibitors, new method allowed accurate identification of comigrating FeSOD and Cu/ZnSOD isoforms and two protein bands of ambiguous identities. Potato SODs were also characterized by SDS-PAGE immunoblotting and single MnSOD (23.6 kDa), three Cu/ZnSOD polypeptides (17.9, 17 and 16.3 kDa) and single FeSOD (25.1 kDa) polypeptide were detected in leaves of four examined cultivars. The difference in the number of FeSOD and Cu/ZnSOD isoforms/polypeptides between native-PAGE and SDS-PAGE immunoblots suggests that SOD proteins may have undergone post-translational modifications affecting protein mobility or existence of isoforms that differ from each other in total protein charge, but not in molecular weight.     

Ca<Superscript>2+</Superscript> reduces the effect of hypoxia in mosses <Emphasis Type="Italic">Mnium undulatum</Emphasis> and <Emphasis Type="Italic">Polytrichum commune</Emphasis>

Gametophores of mosses Mnium undulatum and Polytrichum commune were submerged in distilled water or in calcium chloride solution (0.9 mM Ca²⁺) to induce hypoxia. The net photosynthetic (P_N) and dark respiration rate (R_D) were measured in the air containing 300–400 μmol(CO₂)·mol⁻¹(air) and 0.21 mol(O₂)·mol⁻¹(air). P_N of M. undulatum gametophores decreased to 58 % of the control after 1-h submersion in water, whereas to 80 % of the control in P. commune gametophores. A smaller decrease in P_N was observed when the gametophores were immersed in CaCl₂ solution. In hypoxia, R_D in the tested mosses species was a little higher than in the control.     

Effect of salinity on antioxidant responses of chickpea seedlings

The changes in the activity of antioxidant enzymes, like superoxide dismutase, ascorbate peroxidase, catalase and glutathione reductase, and growth parameters such as length, fresh and dry weight, proline and H₂O₂ contents, chlorophyll fluorescence (Fv/Fm), quantum yield of PSII and the rate of lipid peroxidation in terms of malondialdehyde in leaf and root tissues of a chickpea cultivar (Cicer arietinum L. cv. Gökçe) under salt treatment were investigated. Plants were subjected to 0.1, 0.2 and 0.5 M NaCl treatments for 2 and 4 days. Compared to controls, salinity resulted in the reduction of length and of the fresh and dry weights of shoot and root tissues. Salinity caused significant (P < 0.05) changes in proline and MDA levels in leaf tissue. In general, a dose-dependent decrease was observed in H₂O₂ content, Fv/Fm and quantum yield of photosynthesis under salt stress. Leaf tissue extracts exhibited three activity bands, of which the higher band was identified as MnSOD and the others as FeSOD and Cu/ZnSOD. A significant enhancement was detected in the activities of Cu/ZnSOD and MnSOD isozymes in both tissues. APX and GR activities exhibited significant increases (P < 0.05) in leaf tissue under all stress treatments, whereas no significant change was observed in root tissue. The activity of CAT was significantly increased under 0.5 M NaCl stress in root tissue, while its activity was decreased in leaf tissue under 0.5 M NaCl stress for 4 days. These results suggest that CAT and SOD activities play an essential protective role against salt stress in chickpea seedlings.     

Increased Tolerance to Mn Deficiency in Transgenic Tobacco Overproducing Superoxide Dismutase

The effect of Mn deficiency on plant growth and activities ofsuperoxide dismutase (SOD) was studied in hydroponically-grownseedlings of transgenic tobacco (Nicotiana tabacum L.) engineeredto overexpress FeSOD in chloroplasts or MnSOD in chloroplastsor mitochondria. In comparison to the non-transgenic parentalline, the activity of MnSOD in the lines overproducing MnSODwas 1.6-fold greater, and the activity of FeSOD in the FeSOD-overproducinglines was 3.2-fold greater, regardless of the Mn treatment (deficientor sufficient). The MnSOD activities decreased due to Mn deficiency,while activities of FeSOD and Cu/ZnSOD remained unaffected 25d after transplanting (DAT). With an increased duration of theMn deficiency stress (45 DAT), FeSOD activity decreased, andthat of MnSOD continued to decrease, while Cu/ZnSOD activitysimultaneously increased. Under Mn sufficiency, non-transgenicparental plants had greater shoot biomass than the transgenics;however, when subjected to Mn deficiency stress, non-transgenicparents suffered a proportionally greater growth reduction thantransgenic lines. Thus, overproduction of MnSOD in chloroplastsmay provide protection from oxidative stress caused by Mn deficiency.Copyright 1999 Annals of Botany Company Manganese deficiency, Nicotiana tabacum, superoxide dismutase (SOD), transgenic tobacco.     

Periplasmic superoxide dismutases in Aquaspirillum magnetotacticum

Aquaspirillum magnetotacticum MS-1 cells cultured microaerobically (dissolved O₂ tension 1% of saturation), expressed proteins with superoxide dismutase (SOD) activity. The majority (roughly 95%) of total cell superoxide dismutase activity was located in the cell periplasm with little or no activity in the cell cytoplasm. Irontype SOD (FeSOD) contributed 88% of the total activity activity detected, although a manganese-type SOD (MnSOD) was present in the periplasm as well. Cells cultured at a higher dissolved O₂ tension (10% of saturation) expressed increased activity of the MnSOD relative to that of the FeSOD.     

Superoxide dismutase activity in callus from the C3-CAM intermediate plant Mesembryanthemum crystallinum

In light-grown callus obtained from M. crystallinum hypocotyls, three classes of superoxide dismutase (SOD): Mn-, Fe- and Cu/ZnSOD were identified. Callus cultured on a medium containing 0.4 M NaCl showed an increase in FeSOD activity on day 4 of the experiment. In contrast, Cu/ZnSOD activity was higher over 16 days of the experiment. Salinity stress induces oxidative stress mainly for the cytosolic SOD form (Cu/ZnSOD). After 16 days of callus culture on salt-containing medium, diurnal malate oscillations, and an increase in NADP-malic enzyme activity were noticed. These results strongly suggest that C₃-CAM transition can also be expressed at the cellular level. Therefore, callus tissue could be a useful model, similar to a whole plant, for investigation of mechanisms of stress responses in M. crystallinum.     

DNA and RNA strand scission by copper, zinc and manganese superoxide dismutases

Copper/zinc (Cu/ZnSOD) and manganese (MnSOD) superoxide dismutases which catalyze the dismutation of toxic superoxide anion, O _inf2 ^sup– , to O₂ and H₂O₂, play a major role in protecting cells from toxicity of oxidative stress. However, cells overexpressing either form of the enzyme show signs of toxicity, suggesting that too much SOD may he injurious to the cell. To elucidate the possible mechanism of this cytotoxicity, the effect of SOD on DNA and RNA strand scission was studied. High purity preparations of Cu/ZnSOD and MnSOD were tested in an in vitro assay in which DNA cleavage was measured by conversion of phage X174 supercoiled double-stranded DNA to open circular and linear forms. Both types of SOD were able to induce DNA strand scission generating single- and double-strand breaks in a process that required oxygen and the presence of fully active enzyme. The DNA strand scission could be prevented by specific anti-SOD antibodies added directly or used for immunodepletion of SOD. Requirement for oxygen and the effect of Fe(II) and Fe(III) ions suggest that cleavage of DNA may be in part mediated by hydroxyl radicals formed in Fenton-type reactions where enzyme-bound transition metals serve as a catalyst by first being reduced by superoxide and then oxidized by H₂O₂. Another mechanism was probably operative in this system, since in the presence of magnesium DNA cleavage by SOD was oxygen independent and not affected by sodium cyanide. It is postulated that SOD, by having a similar structure to the active center of zinc-containing nucleases, is capable of exhibiting non-specific nuclease activity causing hydrolysis of the phosphodiester bonds of DNA and RNA. Both types of SOD were shown to effectively cleave RNA. These findings may help explain the origin of pathology of certain hereditary diseases genetically linked to Cu/ZnSOD gene.     

Differences in the activities of some antioxidant enzymes and in H2O2 content during rhizogenesis and somatic embryogenesis in callus cultures of the ice plant

Callus was obtained from hypocotyls of Mesembryanthemum crystallinum seedlings cultured on two types of medium—germination medium (GM) and callus induction medium (CIM). Following subculture on shoot induction medium SIM1, the callus formed on CIM medium regenerated roots or somatic embryos, while that obtained on GM medium was non-regenerative. The activities of CuZn-superoxidase dismutase (SOD) were comparable in all calli, but the activities of FeSOD and MnSOD varied according to the activity of photosystem II and the regenerative potential of the tissues. Catalase (CAT) activity was related to H₂O₂ concentration and affected by both the culture conditions and the morphogenic potential of the calli. The possible role of CAT, SODs and H₂O₂ in the regeneration of M. crystallinum from callus is discussed.This work is dedicated to Prof. Dr. Hubert Ziegler on his 80th birthday.     

Enzymes regulating the accumulation of active oxygen species during the hypersensitive reaction of bean to Pseudomonas syringae pv. phaseolicola

Changes in the activities of superoxide dismutase (SOD; EC 1.15.1.1), peroxidase (POD; EC 1.11.1.7) and catalase (CAT; EC 1.11.1.6) which regulate the persistence of active oxygen species (AOS) were examined in leaves of bean (Phaseolus vulgaris L. cv. Tendergreen) undergoing compatible and incompatible interactions to race 6 and race 3 strains, respectively, of the halo-blight bacterium Pseudomonas syringae pv. phaseolicola. Resistance of cv. Tendergreen to race 3 is determined by the R3 gene and was expressed by a hypersensitive reaction (HR) which was associated with a rapid increase in lipid peroxidation between 8 and 12 h after inoculation. Five main isoforms of SOD were resolved by native polyacrylamidegel electrophoresis (PAGE). Major changes were found in the activities of the cytosolic Cu, Zn-SOD3 and Cu, ZnSOD5 isoforms, which increased by 6 h after inoculation with race 3, and the possibly peroxisomal MnSOD2 isoform, which decreased rapidly in tissue undergoing the HR. Three further minor isoforms of SOD showed a strong increase in activity during the HR. A low level of extracellular SOD activity was also resolved; two isoforms, one of which increased dramatically in activity during the HR, were detected within intercellular fluids recovered from inoculation sites. Fewer changes in SOD activities were found during the compatible interaction to race 6, and they did not occur until 16 h after inoculation. In tissue around infiltration sites, no decrease in the activity of Mn-SOD2 was observed but slight increases in some other isoforms were found. Four groups of POD isoforms were detected in both 3,3-diaminobenzidine/H₂O₂-and o-dianisidine/H₂O₂-stained PAGE gels. Significant changes in activity were again associated with development of the HR. In particular, by 2 h after inoculation, increases in POD3a, b and c isoforms were detected within total soluble extracts and also in POD3c within intercellular fluids (no other isoform was found in the apoplasm). By contrast, POD1 and POD2 activities generally declined following inoculation. The principal change in activity in tissues surrounding infiltration sites was an increase in POD3 isoforms following inoculation with race 3. Measurements of total activity showed a decrease in CAT activity as early as 2 h after inoculation, followed by a recovery after 8 h and a further decrease as infiltrated tissue collapsed during the HR. A more-gradual decline in CAT activity was observed at sites undergoing the compatible interaction and also in tissue surrounding inoculation sites. The spatial and temporal changes detected in activities of CAT and isoforms of SOD and POD clearly demonstrate the complexity and potential subtlety of control of the production and persistence of AOS in bean following microbial challenge. The generation of AOS through HR-specific, early increases in extra-cellular POD and SOD isoforms is discussed.This work was supported in part by the scientific Research Foundaation (OTKA F 5082), the foundation for Hungarian science, a british council scolership to A.L.A and the U.K. Agricultural and food Reaserch council.     

Use of cyanide and diethyldithiocarbamate in the assay of superoxide dismutases.

Eucaryotes have two major forms of superoxide dismutase (SOD), Cu,ZnSOD and MnSOD; in most tissues Cu,ZnSOD is present in higher amounts than MnSOD. To assay MnSOD, Cu,ZnSOD can be inhibited selectively by millimolar concentrations of cyanide ion. However, calculation of MnSOD activity from the differential cyanide inhibition assay is complex and small experimental errors can cause large errors in the calculated MnSOD activity. We have assessed how interaction of cyanide and hydrogen peroxide with cytochrome c can lead to further errors in the xanthine oxidase-cytochrome c assay for SOD. Alternatively, Cu,ZnSOD can be completely inactivated by 50 mM diethyldithiocarbamate (DDC) at 30 degrees C for 1 h without affecting the activity of MnSOD. Since DDC reduces cytochrome c, the treated samples must be thoroughly dialyzed or desalted before assay. In the case of lung homogenates, dialysis is not an extra step since fresh, untreated samples must also be dialyzed or desalted before assaying by the cytochrome c method. Cu,ZnSOD activity is equal to the activity in the untreated sample minus the activity in the DDC-treated portion of the sample. Another copper chelator, triethylenetetramine, did not inactivate Cu,ZnSOD and could not be used instead of DDC. For accurate measurement of both enzymes in samples where MnSOD contributes only a small fraction of the total SOD activity, the DDC method has the advantage that it provides a direct measure of the MnSOD activity without interference by Cu,ZnSOD.     

Metalliferous and non-metalliferous populations of Viola tricolor represent similar mode of antioxidative response

Heavy metal-contaminated sites are excellent areas to examine the antioxidative machinery responsible for physiological adaptations of many plant species.Superoxide dismutase (SOD), guaiacol peroxide (GPX), ascorbate peroxide (APX), catalase (CAT) activity and hydrogen peroxide (H₂O₂) content were analyzed in leaves and roots of Viola tricolor (Viola) from contaminated soils (‘Bukowno’, ‘Saturn’, ‘Warpie’ heaps), and non-contaminated soil (‘Zakopane meadow’) to examine the level of oxidative stress and antioxidative response.In leaves, six isoforms of SOD were recognized. Roots possessed two additional bands, named manganese superoxide dismutase (MnSOD)-like form (MnSODI) and Cu/ZnSOD-like form (Cu/ZnSODIV). The H₂O₂ content in leaves ranged from 554 to 5 098 μmol H₂O₂/g f.w. and was negatively correlated with CAT activity. The non-contaminated population was characterized by the lowest CAT activity combined with the highest H₂O₂ concentration. Two isoforms of CAT, CAT-1 and CAT-2, were recognized in leaves of plants from non-contaminated and contaminated sites, respectively. In roots of individuals from two heaps (‘Warpie’ and ‘Saturn’), two distinct bands for each CAT isoform were observed. A slower migrating band may be an aggregate, exhibiting CAT and MnSODs activities. Both peroxidases (APX and GPX) presented the same pattern of activity, depending on the organ, indicating that in leaves and roots APX and GPX were regulated in parallel.Differences in enzyme activities and H₂O₂ content between plants from different contaminated sites were statistically significant, but were tightly maintained at a very similar level. Prolonged and permanent heavy metal stress evoked a very similar mode of antioxidative response in specimens of analyzed metalliferous populations not causing measurable oxidative stress. Thus, our results clearly indicate that V. tricolor is a taxon well adapted to heavy metal-contaminated soils, and that differences in enzyme activities and H₂O₂ content result from adjustment of plants to a variety of conditions.     

Purification and some properties of superoxide dismutase from<Emphasis Type="Italic"> Deinococcus radiophilus</Emphasis>, the UV-resistant bacterium

The superoxide dismutase (SOD, EC 1.15.1.1) of Deinococcus radiophilus, a bacterium extraordinarily resistant to UV, ionizing radiations, and oxidative stress, was purified 1,920-fold with a 58% recovery yield from the cell-free extract of stationary cells by steps of ammonium sulfate fractionation and Superdex G-75 gel-filtration chromatography. A specific activity of the purified enzyme preparation was ca. 31,300 U mg^–1 protein. D. radiophilus SOD is Mn/FeSOD, judging by metal analysis and its insensitivity to cyanide and a partial sensitivity to H₂O₂. The molecular weights of the purified enzyme estimated by gel chromatography and polyacrylamide gel electrophoresis are 51.5±1 and 47.1±5 kDa, respectively. The SOD seems to be a homodimeric protein with a molecular mass of 26±0.5 kDa per monomer. The purified native SOD showed very acidic pI of ca. 3.8. The enzyme was stable at pH 5.0–11.0, but quite unstable below pH 5.0. SOD was thermostable up to 40°C, but a linear reduction in activity above 50°C. Inhibition of the purified SOD activity by -naphthoquinone-4-sulfonic acid, -diazobenzene sulfonic acid, and iodine suggests that lysine, histidine, and tyrosine residues are important for the enzyme activity. The N-terminal peptide sequence of D. radiophilus Mn/FeSOD (MAFELPQLPYAYDALEPHIDA(>D) is strikingly similar to those of D. radiodurans MnSOD and Aerobacter aerogenes FeSOD.Communicated by G. Antranikian     

Superoxide dismutase activity in salt stressed wheat seedlings

We investigated the effect of salt stress on enzymatic activity of superoxide dismutase (SOD) isozymes in shoot and root tissues of salt tolerant and sensitive wheat (Triticum aestivum L. and Triticum durum Defs.) cultivars. Ten day old seedlings were subjected to 0.7 M NaCl stress for 3 and 5 days. Seedlings treated in the same manner without salt stress served as controls. Activity of SOD isozymes in root and shoot extracts was determined by activity staining of native polyacrylamide gels. In both shoot and root extracts of examined cultivars two isozymes of SOD, namely MnSOD and Cu/ZnSOD were identified. Cu/ZnSOD activity comprised 90 % of total SOD activity in both root and shoot tissues. Salt stress caused 1–1.5 fold increase in MnSOD activity of shoots in tolerant cultivars when compared with non-stressed controls. Under stress conditions, compared to controls all cultivars exhibited reduced MnSOD activity in root tissues. Cu/ZnSOD activity, on the other hand, was remarkably enhanced (3–4 fold) in root extracts of the tolerant cultivars, whereas it was reduced in the sensitive ones.     

Purification and identification of the type of superoxide dismutase fromGlœocapsa sp.

Superoxide dismutase purified from the photoautotrophic cyanobacteriumGlœocapsa sp. has a molar mass of 38 kDa, as estimated by gel filtration. Inhibition pattern indicated limited resistance to H₂O₂ under conditions which entirely inhibited FeSOD. The enzyme is insensitive to cyanide and is inhibited by azide. This suggested the presence of a hybrid of two isozymes, FeSOD and a minor constituent of MnSOD. Amino acid composition of the purified SOD showed structural homology to FeSOD and MnSOD apoenzymes.     

Effect of abiotic stress factors on fluctuations in contents of malate and citrate and on malic enzyme activity in moss gametophores

Diurnal fluctuations in the contents of malate in gametophores of Polytrichum commune Hedw. and Polytrichum piliferum Hedw. were small. In gametophores of Mnium undulatum Hedw. and leaves of Hieracium pilosella L. significant differences were found in the accumulation of malate between day and night. However, no significant diurnal differences were found in the contents of citrate. High irradiance, desiccation, and submergence by water resulted in increases in daily fluctuations of malate, particularly in the gametophores of P. piliferum and leaves of H. pilosella. Accumulation of malate during night may show the adaptation of the studied species to unfavourable conditions caused by stresses. The change in activity of NADP-malic enzyme may characterize a response to stress factors.     

Effects of cadmium stress upon activities of antioxidative enzymes, photosynthetic rate, and production of phytochelatins in leaves and chloroplasts of wheat cultivars differing in yield potential

We tested the mode of action of Cd on photosynthesis and activities of ATP-sulfurylase (ATP-S), catalase (CAT), superoxide dismutase (SOD), ascorbate peroxidase (APX), glutathione reductase (GR), and on contents of phytochelatins (PCs) and glutathione (GSH) in two cultivars of wheat (Triticum aestivum L.) PBW-343 and WH-542 differing in yield potential. Cd treatment increased Cd content and photosynthetic activity in PBW-343 more than in WH-542. The activities of APX, GR, ATP-S, and synthesis of PCs and GSH were also increased by Cd, but the CAT and SOD activities were inhibited in both the cultivars. The efficient functioning of antioxidative enzymes, production of PCs and GSH, helped in counteracting the effects of Cd namely in PBW-343, protected photosynthetic ability, and increased the tolerance to Cd.     

Antioxidant Enzyme Isoforms on Gels in Two Poplar Clones Differing in Sensitivity After Exposure to Ozone

The effect of acute ozone (O₃) fumigation on isozyme patterns of superoxide dismutase (SOD), peroxidase (POD) and ascorbate peroxidase (APX) in mature (ML) and young leaves (YL) of two poplar clones, contrasting in O₃-sensitivity was analysed. Untreated leaves of both the O₃-sensitive (O₃-S) clone Eridano of Populus deltoides×P. maximowiczii and the O₃-resistant (O₃-R) clone I-214 of P.×euramericana showed four distinct SOD isoforms with a relative mobility (R_f) of 0.54 (MnSOD), 0.60 (Cu/ZnSOD), 0.65 (unidentified), and 0.71 (Cu/ZnSOD). After O₃-fumigation the activity of the SOD isoforms showed only quantitative variations with respect to control plants. In ML of untreated O₃-R plants seven POD isoforms (R_f= 0.13, 0.19, 0.34, 0.59, 0.64, 0.70 and 0.75) were found, while in YL one isoform (R_f= 0.34) was undetected. Only three POD isoforms in both ML and YL of untreated O₃-S plants were resolved. The electrophoretic pattern of POD in O₃-S leaves was greatly modified by acute O₃-fumigation with the appearance of new isoforms in both YL and ML and the disappearance of an isoform (R_f= 0.13) in YL. Additionally, O₃-exposure induced the appearance of two APX isoforms in YL (R_f= 0.66 and 0.70), and one isoform in ML (R_f= 0.70) of the O₃-S clone. By contrast, the activity of the three APX isoformes (R_f= 0.64, 0.70 and 0.76) detected in O₃-R leaves showed only quantitative variation with respect to untreated plants. From these data it is concluded that: 1) in these poplar hybrids antioxidant enzyme activity is developmentally regulated and greatly affected by acute O₃ stress treatments and 2) the different enzymes activity displayed by the two poplar clones, especially for POD and APX isoformes, could partly explain their distinct O₃-sensitivity.     

Antioxidative responses and their relation to salt tolerance in <Emphasis Type="Italic">Echinochloa oryzicola</Emphasis> Vasing and <Emphasis Type="Italic">Setaria virdis</Emphasis> (L.) Beauv.

Two gramineous species among wild plants, Echinochloa oryzicola Vasing and Setaria viridis (L.) Beauv., and Oryza sativa L. cv. Nipponbare were subjected to salt stress. The relative growth rate (RGR), Na content, photosynthetic rate, antioxidant enzymes activity (superoxide disumutase (SOD), catalase (CAT), ascorbate peroxidase (APx) and glutathione reductase (GR)), and malondialdehyde (MDA) content in leaves after NaCl treatment were studied. RGR significantly decreased in O. sativa more than in E. oryzicola and S. viridis. Comparatively salt-tolerant S. viridis showed higher growth rate, lower Na accumulation rate in leaves, higher photosynthetic rate, and induced more SOD, CAT, APx, and GR activity and lower increase of MDA content as compared to the salt-sensitive O. sativa. At the same time, the comparatively salt-tolerant E. oryzicola also showed higher growth rate, much lower Na accumulation and no observable increase of MDA content, even though the CAT and APx activities were not induced by salinity. These results suggested that the scavenging system induced by H₂O₂-mediated oxidative damage might, at least in part, play an important role in the mechanism of salt tolerance against cell toxicity of NaCl in some gramineous plants     

Effect of Cu content on the activity of Cu/ZnSOD1 in the Arabidopsis SUMO E3 ligase siz1 mutant

In a previous study, we found copper (Cu) accumulated to a higher level in the aerial parts of soil-grown plants of the SUMO E3 ligase siz1 mutant than in those of the wild-type. Here, we found that all superoxide dismutase (SOD) isoforms, such as FeSOD, MnSOD and different types of Cu/ZnSOD, were more active in the siz1 mutant than in the wild type under normal growth conditions. We further examined the expression and enzymatic activity of Cu/ZnSOD1 (CSD1) in shoots of the siz1 mutant under excess Cu. Shoot CSD1 protein level and activity were reduced in siz1 with excess Cu but induced in the wild type. SIZ1-dependent SUMOylation may be involved in maintaining CSD1 protein stability or repelling a feedback regulation under Cu stress.Key words: Cu/Zn SOD, CSD1, SUMO E3 ligase, SIZ1, Cu stress