Distribution of the stress-related anionic peroxidases in different cucumber organs

The distribution of the stress-related anionic peroxidase (srPRX) activity was investigated in various organs of cucumber (Cucumis sativus L. cv. Laura) during their development by activity staining and immunoblotting. In shoots, including cotyledon, leaf, stem and tendril, three stress-related peroxidase isoenzymes were present, particularly in old ones. The PRX1 was the only srPRX isoenzyme found in both young and old roots. As fruits became mature, srPRX activity increased dramatically and was particularly enriched in the external parts of the fruit. The PRX1 isoenzyme was highly accumulated in the course of seed germination, while the absence of other two srPRX isoenzymes (PRX2 and PRX3) was recorded. The possible function of the srPRX is discussed, with respect to this spatio-temporal distribution.     

The Substrate Preference and Histochemical Localization Argue against the Direct Role of Cucumber Stress-Related Anionic Peroxidase in Lignification

The substrate preference and the localization of cucumber (Cucumis sativus L.) stress-related anionic peroxidase (srPRX) were investigated in order to assess whether this activity correlates with the lignification. The results showed that none of the purified srPRX isoenzymes (PRX 1 –3) could oxidize the lignin monomer analog syringaldazine. The srPRX immunospecific signal was found to be highly abundant in both the extrafascicular and fascicular phloem regions in cucumber stem and leaf petiole. In Nicotiana, Petunia and Dahlia, the srPRX homologs were specifically deposited in both outer and inner phloem elements of stem and in both abaxial and adaxial phloem of leaf stems. The srPRX mRNA expression analysis showed similar pattern as for immunolocalization. The subcellular localization of immunospecific srPRX demonstrated that at least part of the peroxidase could be ionically-bound to phloem cell wall.     

Immunological similarity of the cationic and the anionic peanut peroxidase isozymes

Antibodies against both the native and the deglycosylated cationic peanut peroxidase (C.PRX) were used to probe the structural relationship of this isozyme with its anionic counterpart. Not only the native but also the deglycosylated forms of the cationic and the anionic peroxidases reacted with both antibodies. The activity of the cationic isozymes was inhibited by anti-native C.PRX. Similar but nevertheless distinct immunodetection patterns resulted from reaction of the partially digested cationic and anionic peroxidase peptides with antibodies directed to the deglycosylated as well as to the native C.PRX, suggesting a similarity in their polypeptide structures.     

Oxidation of tyrosine by peroxidase isozymes derived from peanut suspension culture medium and by isolated cell walls

A comparative study on tyrosine oxidation was made with a pure cationic and anionic peroxidase from peanut cell culture medium. The results showed that both isozymes possessed almost identical capacity to oxidize tyrosine to dityrosine, isodityrosine and polytyrosine with the main difference being the pH optimum (pH 4 for the anionic and pH 7 for the cationic isozyme). Variation of reaction time after 1.5 h incubation had little effect on the quantity and quality of the oxidation products. On the other hand, increase of enzyme units correspondingly increased tyrosine-oxidation. The removal of heme and carbohydrate moieties from the holoenzyme arrested the reaction thereby suggesting the role played by these moieties in stabilizing the active site of peroxidase isoenzymes. Isolated cell wall extracts catalyzed the tyrosine-oxidation equally well as the purified peroxidase. Even though polyclonal antibodies against anionic peroxidase inhibited the in vitro tyrosine reaction they did not affect the tyrosine oxidation by the cell walls, while the cationic antibodies did.Abbreviations A.PRX anionic peanut peroxidase - C.PRX cationic peanut peroxidase - PcAb polyclonal antibodies - ELISA enzyme-linked-immuno-sorbent-assay - TFMS trifluoromethane sulfonic acid     

Organ-specific expression of the stress-related anionic peroxidases in cucumber flowers

The study revealed a marked qualitative and quantitative differences in the pattern of expression of three stress-related cucumber (Cucumis sativus L., cv. Laura) isoperoxidases. Activity staining, as well as the protein gel blot (Western blotting) confirmed that the proteins studied are differentially expressed in both male and female sepals, in male but not in female pedicels and in, pistil. By using antibodies specific to three stress-related peroxidases, one serologically related pistil-specific anionic peroxidase was detected. This specific band had never been observed in other flower organs. Differential appearance of the stress-related peroxidase isoenzymes in both male and female flowers demonstrates that these proteins are developmentally regulated, showing an organ-specific expression.     

Serologically-Related Anionic Peroxidases from Petunia and Cucumber can Substitute Flavonoid Antioxidants

In this study we have investigated whether naturally occurring flavonoid-deficient mutant Red Star of Petunia hybrida is capable of metabolizing H₂O₂ by invoking other antioxidant enzyme system. We demonstrated that reduced flower pigmentation due to a reduction in the chalcone synthase mRNA expression results in strong H₂O₂ accumulation accompanied by the induction of a specific set of anionic peroxidase (PRX), serologically-related to main cucumber srPRX. We found correlation between rate of H₂O₂ accumulation and qualitative, as well as quantitative changes in the srPRX expression which seems to be determined by flower phenotype. In detached flower buds cultured in vitro both abscisic acid and anther extirpation prevented anthocyanin pigmentation, and thus flavonoid biosynthesis, resulting in a marked accumulation of immunoprecipitable srPRX. In contrast, pigmented flowers cultivated under the same conditions did not accumulate corresponding srPRX. The results suggest that a specific set of anionic PRX can substitute for the absence of flavonoid antioxidants.     

Role of carbohydrate moieties in peanut (Arachis hypogaea) peroxidases.

The activities of a cationic (C.PRX) and an anionic peroxidase isolated from peanut (Arachis hypogaea)-cell suspension culture were drastically reduced when they were deglycosylated with glycopeptidase F or oxidized by 10 mM-periodate. In contrast with the controls, the deglycosylated or the oxidized peroxidases were much more susceptible to proteolytic degradation. In radiolabelling experiments with [35S]methionine, the non-glycosylated C.PRX was synthesized in the tunicamycin-treated cultures and secreted into the medium. Examination of the C.PRX polypeptides by SDS/polyacrylamide-gel electrophoresis followed by fluorography showed that the non-glycosylated form had an Mr of approx. 31,000, which is about 78% of that of the glycosylated form. Our results suggest that carbohydrates may not be essential for peroxidase secretion, but that stabilization of the peroxidase molecules and acquisition by these isoenzymes of a catalytically active conformation is linked directly or indirectly to glycosylation.     

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.     

Effects of nitric oxide on the germination of cucumber seeds and antioxidant enzymes under salinity stress

Effects of exogenous nitric oxide (NO) on the germination and antioxidant enzyme during cucumber seed germination were investigated under salt stress. Seeds of cucumber (Cucumis sativus L. cv. Jinyou 1) were treated with distilled water or NaCl in the presence or absence of NO donor sodium nitroprusside (SNP) during germination. Excess 50 mM NaCl reduced significantly the seed germination rate in a short term and speed of germination. When salt concentration increased, germination of cucumber seed was reduced and the time needed to complete germination lengthened. Addition of exogenous SNP in salt solution attenuated the salt stress effects in a dose-dependent manner, as indicated by accelerating the seed germination, as well as weight increase of budding seeds, and 50 μM SNP was optimal concentration. At 150 mM NaCl, the 50 μM exogenous SNP significantly increased the activities of superoxide dismutase (SOD, EC 1.15.1.1), catalase (CAT, EC 1.11.1.6) and protein content, while decreased the contents of malondialdehyde (MDA). There were no obvious effects of exogenous NO on peroxidase (POD, EC 1.11.1.6) and ascorbate peroxidase (APX, EC 1.11.1.6) activities under salt stress. Exogenous NO also increased the SOD and CAT isozyme expression under salt stress, which was in accordance with the improved antioxidant activities in the germinating seeds. The NO-induced salt stress resistance was associated with activated enzymes, and enhanced protein content, thus decreasing MDA content. It is concluded that exogenous NO treatment on cucumber seeds may be a good option to improve seed germination under saline conditions.     

Molecular cloning and partial characterization of a peroxidase gene expressed in the roots of Portulaca oleracea cv., one potentially useful in the remediation of phenolic pollutants

Portulaca (Portulaca oleracea cv.) efficiently removes phenolic pollutants from hydroponic solution. In plant roots, peroxidase (PRX) is thought to be involved in the removal of phenolic pollutants by the cross-linking them to cell wall polysaccharides or proteins at the expense of reduction of hydrogen peroxide (H(2)O(2)). In this study, we found that portulaca roots secreted an acidic PRX isozyme that had relatively high H(2)O(2) affinity. We isolated five PRX genes, and the recombinant PRX proteins produced in cultured tobacco cells were partially characterized. Among these genes, PoPRX2 probably encoded the acidic PRX isozyme. PoPRX2 had an extra N-terminal region which has not been reported for other PRX proteins. We found that PoPRX2 oxidized phenolic pollutants, including bisphenol A, octylphenol, nonylphenol, and 17β-estradiol. In addition, we found that the Cys261 residue of PoPRX2 played an important role in the determination of affinity for H(2)O(2) and stability toward H(2)O(2).     

The apoplastic oxidative burst peroxidase in Arabidopsis is a major component of pattern-triggered immunity

In plants, reactive oxygen species (ROS) associated with the response to pathogen attack are generated by NADPH oxidases or apoplastic peroxidases. Antisense expression of a heterologous French bean (Phaseolus vulgaris) peroxidase (FBP1) cDNA in Arabidopsis thaliana was previously shown to diminish the expression of two Arabidopsis peroxidases (peroxidase 33 [PRX33] and PRX34), block the oxidative burst in response to a fungal elicitor, and cause enhanced susceptibility to a broad range of fungal and bacterial pathogens. Here we show that mature leaves of T-DNA insertion lines with diminished expression of PRX33 and PRX34 exhibit reduced ROS and callose deposition in response to microbe-associated molecular patterns (MAMPs), including the synthetic peptides Flg22 and Elf26 corresponding to bacterial flagellin and elongation factor Tu, respectively. PRX33 and PRX34 knockdown lines also exhibited diminished activation of Flg22-activated genes after Flg22 treatment. These MAMP-activated genes were also downregulated in unchallenged leaves of the peroxidase knockdown lines, suggesting that a low level of apoplastic ROS production may be required to preprime basal resistance. Finally, the PRX33 knockdown line is more susceptible to Pseudomonas syringae than wild-type plants. In aggregate, these data demonstrate that the peroxidase-dependent oxidative burst plays an important role in Arabidopsis basal resistance mediated by the recognition of MAMPs.     

嫁接黄瓜地上部的南瓜根系分泌物对种子萌发的影响

经嫁接黄瓜接穗的南瓜根系分泌物对黄瓜和南瓜的发芽率和胚根、胚轴的伸长均具有明显的抑制作用.分析表明:嫁接黄瓜根系分泌物可以促进黄瓜和南瓜体内吲哚乙酸氧化酶的活性,抑制淀粉酶的活性,从而降低其吲哚乙酸(IAA)水平,影响子叶中贮藏物质的转化和利用,抑制其萌发和生长.     

Physiological basis of different allelopathic reactions of cucumber and figleaf gourd plants to cinnamic acid

To provide an insight into the mechanism of interspecific interactions mediated by allelochemicals, cucumber and figleaf gourd seedlings were compared on their response to cinnamic acid, an autotoxin from root exudates of cucumber. Reactive oxygen species metabolism and plasma membrane H(+)-ATPase activity were examined in roots upon exposure to cinnamic acid. This exposure resulted in significant increases in activities of NADPH oxidase, superoxide dismutase, guaiacol peroxidase, and catalase, as well as in O(2)(.-) production and H(2)O(2) content, in cucumber roots but not in figleaf gourd roots. Notably, the cucumber roots produced significant amount of reactive oxygen species (ROS) immediately after cinnamic acid treatment, consequently increasing membrane peroxidation, decreasing membrane H(+)-ATPase activity, and losing root viability. By contrast, no such changes were observed in figleaf gourd roots. All these results indicated that there was an interspecies difference in the recognition of allelochemicals, which induced oxidative stress accompanied by root cell death in cucumber, an autotoxic plant, but not in figleaf gourd, a cucumber relative.     

Inhibition of Al-induced root elongation and enhancement of Al-induced peroxidase activity in Al-sensitive and Al-resistant barley cultivars are positively correlated

The quantitative changes in peroxidase activity and composition of anionic and cationic isoperoxidases were investigated in roots of two barley cultivars differing in Al resistance. Root growth of Al-resistant cv. Bavaria was in lesser extent reduced by Al treatment (23% after 24 h Al-treatment), whereas 40% reduction of the root growth was observed in Al-sensitive cv. Alfor. The strong root growth inhibition in Al-sensitive cv. Alfor correlated with a 6-fold enhancement of peroxidase activity by Al treatment. Al-induced enhancement of peroxidase activity was found also in roots of Al-resistant cv. Bavaria, but this increase was only half of the Al-sensitive cv. Alfor. Comparison of peroxidase isoenzyme composition of Al-treated and non-treated roots revealed that activity of at least five anionic and four cationic isoperoxidases was stimulated by Al treatment. Three of anionic isoperoxidases (aPOD2-4) were selectively induced only in the Al-sensitive cv. Alfor. A possible involvement of peroxidases in root-growth inhibition is discussed.     

多裂骆驼蓬提取物对黄瓜种子萌发和幼苗生理特性的影响

通过室内培养和盆栽土培试验研究了多裂骆驼蓬提取物对黄瓜种子萌发和幼苗生长及生理特性的影响。结果表明,多裂骆驼蓬总生物碱提取液、水溶性生物碱提取液和脂溶性生物碱提取液浸种均抑制黄瓜种子萌发过程中淀粉酶、蛋白酶和脂肪酶活性,种子活力和萌发速率降低,呼吸速率减慢;幼苗生长过程中根系活力、硝酸还原酶活性升高,叶绿素含量增加,超氧化物歧化酶（SOD）和过氧化物酶（POD）活性提高。说明用多裂骆驼蓬提取液浸种能够促进黄瓜幼苗生长,有利于培育壮苗。     

黄瓜种子及其萌发期的化感作用研究

以大白菜、萝卜、番茄和黄瓜种子为受体,采用实验室培养皿种子发芽生物测试法研究了黄瓜种子浸提液、种子萌发、胚根和芽苗分泌物、芽苗腐解物和芽苗浸提液的化感效应。结果表明:(1)黄瓜种子浸提液对大白菜、萝卜、番茄和黄瓜种子萌发均有化感抑制作用,即黄瓜种子内含有某些化感抑制物质。(2)在水浸提过的黄瓜种子萌发过程中,它不仅对其近邻套种的大白菜、萝卜和番茄种子萌发产生化感抑制作用,而且其胚根和芽苗分泌物对后茬播种的4种蔬菜种子发芽也表现出不同程度的化感抑制作用;黄瓜芽苗腐解物和芽苗水浸提液也对各受体蔬菜种子发芽与生长产生不同程度的化感抑制作用,且随着腐解芽苗量的增加或浸提液浓度的升高,各受体蔬菜种子的发芽指标值、化感效应指数值和综合效应值随之降低。(3)黄瓜种子浸提液及芽苗各器官的化感物质对黄瓜种子的萌发与生长产生了自毒作用,且黄瓜芽苗腐解物、芽苗浸提液、胚根及芽苗分泌物对受体黄瓜的自毒作用均为最大。研究发现,黄瓜种子浸提液、种子萌发时期以及芽苗各器官的化感物质主要是通过抑制受体胚根的生长而起化感抑制作用,即受体蔬菜种子胚根对化感效应最为敏感;因黄瓜种子及萌发期释放化感物质的途径有所不同,导致受体大白菜、萝卜、黄瓜和番茄的化感响应也不相同;在黄瓜种子萌发和芽苗生长的早期,化感物质即开始在芽苗体内进行合成与积累,一部分可通过胚根和芽苗分泌途径释放到环境中,另一部分可通过芽苗腐解途径释放化感物质,并对受体蔬菜种子萌发与生长表现出较强的化感抑制作用。     

The consequence of peroxidase overexpression in transgenic plants on root growth and development

Transgenic tobacco plants that overproduce the tobacco anionic peroxidase wilt upon reaching maturity, although having functional stomata and normal vascular anatomy and physiology. These plants were examined further to determine the cause for wilting, and thus better understand how the anionic peroxidase functions in plant growth and development. Shoots from young peroxidase overproducing plants were grafted onto wild-type tobacco root stock to determine if the roots could absorb and transmit sufficient water to maintain leaf turgidity. These grafted plants never wilted when grown in the greenhouse though shoot peroxidase activity remained ten-fold greater than in control plants, thus indicating that wilting is a consequence of peroxidase expression in the roots. Close examination of root systems revealed considerably less root mass in the transformed plant, primarily exhibited through a decrease in branching. At flowering, root growth rate and total root mass in transformed plants were less than 50% of control plants although shoot mass and growth rate were unchanged. This is in contrast to root growth in young seedlings where transformed plants performed equivalently to controls. Root hydraulic conductivity was measured to evaluate the effect of elevated peroxidase expression on water absorption and transport; however, no significant change in hydraulic conductivity was found in transformed plants. The consequence of anionic peroxidase overexpression on indoleacetic acid (IAA) metabolism was also examined. No significant difference in IAA levels was observed; however, root elongation in plants overexpressing peroxidase was insensitive to exogenous IAA. It can be concluded that the overexpression of the tobacco anionic peroxidase in transformed plants results in diminished root mass from fewer root branches, which contributes to the wilting phenomenon seen in these plants. Further, this developmental change in transformed plants may be a consequence of the metabolism of IAA by the anionic peroxidase.     

外源表油菜素内酯对NaHCO3胁迫下黄瓜幼苗生长及氧化还原平衡的影响

以‘津研四号’黄瓜为试材,以30 mmol·L^-1NaHCO_3模拟盐碱环境,采用水培法研究了0.2μmol·L^-1外源2,4表油菜素内酯(2,4-epibrassinolide,EBR)对盐碱胁迫下黄瓜幼苗生长和活性氧代谢的影响.结果表明:NaHCO_3胁迫显著诱导了叶片及根系中O2-·的产生和H_2O_2的积累,导致丙二醛含量和电解质渗透率提高.NaHCO_3胁迫下,超氧化物歧化酶、过氧化物酶、过氧化氢酶、抗坏血酸过氧化物酶、脱氢抗坏血酸还原酶、单脱氢抗坏血酸还原酶、谷胱甘肽还原酶活性及还原型抗坏血酸、还原型谷胱甘肽含量随胁迫时间延长呈现先升后降的趋势.外源EBR显著提高了NaHCO_3胁迫下黄瓜叶片和根系中抗氧化酶活性、抗氧化物质的含量以及As A/DHA(双脱氢抗坏血酸)和GSH/GSSG(氧化型谷胱甘肽)比值,维持了植株内的氧化还原平衡,降低了活性氧积累水平,缓解了膜脂过氧化,从而提高了黄瓜幼苗的盐碱耐受性.     

外源表油菜素内酯对NaHCO3胁迫下黄瓜幼苗生长及氧化还原平衡的影响

以‘津研四号’黄瓜为试材,以30 mmol·L^-1 NaHCO₃模拟盐碱环境,采用水培法研究了0.2 μmol·L^-1外源2,4表油菜素内酯(2,4-epibrassinolide,EBR)对盐碱胁迫下黄瓜幼苗生长和活性氧代谢的影响.结果表明: NaHCO₃胁迫显著诱导了叶片及根系中O₂^-·的产生和H₂O₂的积累,导致丙二醛含量和电解质渗透率提高.NaHCO₃胁迫下,超氧化物歧化酶、过氧化物酶、过氧化氢酶、抗坏血酸过氧化物酶、脱氢抗坏血酸还原酶、单脱氢抗坏血酸还原酶、谷胱甘肽还原酶活性及还原型抗坏血酸、还原型谷胱甘肽含量随胁迫时间延长呈现先升后降的趋势.外源EBR显著提高了NaHCO₃胁迫下黄瓜叶片和根系中抗氧化酶活性、抗氧化物质的含量以及AsA/DHA(双脱氢抗坏血酸)和GSH/GSSG(氧化型谷胱甘肽)比值,维持了植株内的氧化还原平衡,降低了活性氧积累水平,缓解了膜脂过氧化,从而提高了黄瓜幼苗的盐碱耐受性.     

Activity of the C-terminal-dependent vacuolar sorting signal of horseradish peroxidase C1a is enhanced by its secondary structure

Plant class III peroxidase (PRX) catalyzes the oxidation and oxidative polymerization of a variety of phenolic compounds while reducing hydrogen peroxide. PRX proteins are classified into apoplast type and vacuole type based on the absence or the presence of C-terminal propeptides, which probably function as vacuolar sorting signals (VSSs). In this study, in order to improve our understanding of vacuole-type PRX, we analyzed regulatory mechanisms of vacuolar sorting of a model vacuole-type PRX, the C1a isozyme of horseradish (Armoracia rusticana) (HRP C1a). Using cultured transgenic tobacco cells and protoplasts derived from horseradish leaves, we characterized HRP C1a's VSS, which is a 15 amino acid C-terminal propeptide (C15). We found that the C-terminal hexapeptide of C15 (C6), which is well conserved among vacuole-type PRX proteins, forms the core of the C-terminal-dependent VSS. We also found that the function of C6 is enhanced by the remaining N-terminal part of C15 which probably folds into an amphiphilic α-helix.