高温诱导黄瓜抗霜霉病机理

研究了高温对黄瓜霜霉病菌致病力的影响以及高温控制霜霉病发生的效果.结果表明,40 ℃高温处理2 h和45 ℃处理1 h对黄瓜霜霉病的诱导抗病性作用最明显,其在接种后4 d时的防效分别为58.40%和45.81%,到接种后6 d时,防效分别下降为39.35%和37.65%.经高温诱导后,过氧化物酶（POD）、苯丙氨酸解氨酶(PAL)、几丁质酶（Cht）、β-1,3-葡聚糖酶（Glu）活性均显著高于对照,与未诱导植株相比,高温诱导后叶片组织的细胞壁表面有大量木质素沉积,表明高温处理后黄瓜表现出对霜霉病的抗病性.     

高温处理防治黄瓜霜霉病的生理生化机制

以黄瓜感病品种‘长春密刺’为试材,通过室内盆栽试验研究高温对已感染霜霉病菌的黄瓜幼苗生理生化特征的影响.结果显示:(1)在黄瓜幼苗接种霜霉菌后8h,用45℃高温处理90min防治效果最明显.(2)与只接种霜霉病菌的黄瓜幼苗相比,接种霜霉菌后进行高温处理可显著提高叶片叶绿素含量,降低丙二醛含量;与对照相比,接种霜霉菌后进行高温处理可显著提高叶片几丁质酶活性,Western blotting验证了几丁质酶的活性变化.(3)SDS-PAGE结果表明,霜霉菌侵染可诱导一种28kD蛋白表达,高温处理后28kD蛋白的表达量降低.研究结果表明高温处理可能在杀死病原菌的同时,还诱导黄瓜幼苗对霜霉病产生了部分抗性.     

Benzo-thiadiazole-7-carbothioic Acid S-methyl Ester does not protect Melon Fruits against Fusarium pallidoroseum Infection but Induces Defence Responses in Melon Seedlings

The present study investigated the potential of benzo-thiadiazole-7-carbothioic acid S -methyl ester (BTH) to protect postharvest melons var. 'Orange Flesh' from the fruit rot caused by Fusarium pallidoroseum . It was noticed that melon fruits immersed in BTH and postinoculated with the fungus presented the same pattern of disease incidence/severity and activity of the defence-related enzymes superoxide dismutase, ascorbate peroxidase, guaiacol peroxidase, phenylalanine ammonia-lyase, and β-1,3-glucanase of controls, indicating that BTH was ineffective in protecting melons from the fruit rot disease. However, the preflowering application of BTH in melon seedlings induced stunted growth, probably related to enhanced lignification which is related to the plant cell wall reinforcement and increase of resistance against invading pathogens, and alterations of the activity of the studied defence-related enzymes in comparison with controls, suggesting that this strategy could probably be effective for the control of the postharvest rot of melon fruits through activation of systemic resistance.     

Reaction of Melon (Cucumis melo L.) Cultivars to Monosporascus cannonballus (Pollack & Uecker) and their Effect on Total Phenol,Total Protein and Peroxidase Activities

Eighteen melon cultivars were screened for resistance to Monosporascus cannonballus under greenhouse conditions. The melon cultivars were grown in pasteurized sand, which had been inoculated with a high level (60 CFUs/g of soil) of M. cannonballus mycelium from culture. Cultivars Nabijani, Sfidak khatdar, Sfidak bekhat, Ghandak, Mollamosai, Chappat, Hajmashallahi and Shadgan were moderately resistant to M. cannonballus but all other melon cultivars were moderately to highly susceptible (HS) to this pathogen. A second screening was performed for resistance to M. cannonballus under greenhouse conditions. In the second screening, cultivars Nabijani, Sfidak khatdar, Sfidak bekhat, Ghandak, Mollamosai, Chappat, Hajmashallahi and Shadgan were moderately resistant to M. cannonballus. To examine the melon resistance mechanism against M. cannonballus, the activities of total phenol, total protein and peroxidase in two melon cultivars Nabijani (as resistant) and Khaghani (as susceptible) were determined at 0, 24, 48 and 72 h after inoculation. Inoculated resistant cultivar roots had always higher content of total phenol, total protein and peroxidase than the corresponding inoculated susceptible cultivar roots. The results indicated that there was a relationship between resistance in Nabijani and accumulation of total phenol, total protein and peroxidase.     

Induction of Resistance in Melon to Didymella bryoniae and Sclerotinia sclerotiorum by Seed Treatments with Acibenzolar-S-methyl and Methyl Jasmonate but not with Salicylic Acid

The plant resistance activator acibenzolar‐S‐methyl (BTH), the signalling molecules salicylic acid (SA) and methyl jasmonate (MeJA) were tested by seed treatment for their ability to protect melon seedlings from gummy stem blight and white mould disease caused by the soil‐borne fungal pathogens Didymella bryoniae and Sclerotinia sclerotiorum, respectively. Didymella bryoniae infection on melon seedlings was completely suppressed by MeJA treatment. Necrotic lesions akin hypersensitive response occurred on all inoculated seedlings and prevented pathogen diffusion into healthy tissues. Didymella bryoniae infection was restricted following BTH seed treatment as well, although the percentage of necrotic lesions in comparison with the water soaked lesions was significantly lower than that from MeJA‐induced seedlings. BTH protected melon seedlings against S. sclerotiorum by the occurrence of a high percentage of necrotic lesions. A lower level of resistance was also achieved by MeJA seed treatment. The augmented level of resistance of tissues from BTH and MeJA‐treated seeds was associated with rapid increases in the activity of the pathogenesis‐related proteins chitinase and peroxidase. MeJA also determined a rapid and transient accumulation of lipoxygenase. Moreover, BTH and MeJA treatments determined the differential induction of particular de novo synthesized isoenzymes of these proteins. Results indicate that BTH and MeJA applied to melon seeds may activate on seedlings diverse metabolic pathways leading to the enhancement of resistance against distinct pathogens.     

Screening Actinomycetes for Extracellular Peroxidase Activity

A diverse collection of actinomycete strains were screened for production of extracellular peroxidase activity by adapting a chemiluminescence analysis system developed for horseradish peroxidase-based enzyme-linked immunosorbent assay. Extracellular peroxidase activity was found to be common but quantitatively variable, and this rapid and sensitive screening system permitted identification of a small group of high-producing strains. A range of spectrophotometric assays were compared for the measurement of peroxidase activity in concentrated culture supernatants of two selected thermophilic streptomycetes. Of these, the peroxide-dependent oxidation of 2,4-dichlorophenol was identified as the most robust and reproducible assay for quantitative studies.     

Effect of Wind-induced Mechanical Stress on Soluble Peroxidase Activity and Resistance to Pests in Cucumber

Wind-induced mechanical stress (MS) significantly increased the soluble peroxidase activity in leaves of cucumber over control levels after 9 days of treatment. In comparison, inoculation with the fungal pathogen Cladosporium cucumerinum induced significant increases in peroxidase after 4 days. Cucurbit anthracnose symptom development caused by Colletotrichum orbiculare was greater on leaves of seedlings exposed to 6 but not to 9 or 12 days of wind-induced MS than on leaves of control plants. In contrast, reproduction of melon aphids was significantly reduced on leaves exposed to 12 days of MS relative to controls. These results indicate that wind-induced MS can induce soluble peroxidase activity in cucumber and have divergent effects on the resistance to insects and pathogens.     

嫁接对铜胁迫下甜瓜幼苗生理特性的影响

以南瓜‘京欣砧三号’为砧木、薄皮甜瓜‘IVF09’为接穗,以自根苗为对照,研究了嫁接对铜胁迫下甜瓜幼苗生理特性的影响.结果表明: 在铜胁迫条件下,甜瓜幼苗的生理特性受到抑制.与自根苗相比,嫁接苗的生物量、叶片中光合色素、葡萄糖和果糖含量及光合参数,蔗糖磷酸合成酶、中性转化酶、酸性转化酶活性均显著提高.嫁接改善了养分吸收,有效增加了K、P、Na等的含量,减少了Cu含量,在800 μmol·L^-1 Cu²⁺胁迫下,嫁接苗叶片和根部Cu含量分别比自根苗降低31.3%和15.2%;嫁接改善了植株内源激素平衡,嫁接苗叶片中生长素含量、过氧化物酶活性高于自根苗,脱落酸、丙二醛含量、超氧化物歧化酶、过氧化氢酶活性低于自根苗.表明嫁接减弱了铜胁迫对甜瓜幼苗生理特性的抑制作用,从而提高了幼苗对铜胁迫的抵抗能力.     

Correlative evidence for peroxidase involvement in disease resistance against <Emphasis Type="Italic">Alternaria</Emphasis> leaf blight of tomato

Eighteen tomato genotypes, with varying degree of response to Alternaria leaf blight disease (ALBD) were used to assess the possible involvement of protease and peroxidase activities in disease response. Pre-infectional protease activity varied noticeably in tested genotypes. Highest pre-infectional protease activity was observed in susceptible genotype CLN-2123. Post-infectional protease activity level was generally lower when compared with pre-infectional level in all genotypes with exception of unchanged level in Tibrido. There was no correlation between post-infectional protease activity and percent disease index (%DI). In contrast, pre- and post-infectional leaf peroxidase activities showed a significant (p < 0.01) negative correlation with %DI. Genotypes with higher pre-infectional peroxidase activity performed better on exposure to Alternaria alternata infection and accumulate enhanced peroxidase activity. Tibrido accumulated highest peroxidase activity while level was lowest in 1621P, which showed highest ALBD incidence. Moreover, genotypes with better resistance to A. alternata infection maintained higher post-infectional peroxidase activity. In resistant (Tibrido) and all moderately resistant genotypes, leaf peroxidase activity raised after inoculation when compared with the pre-inoculation level. I summary, higher pre- and post-infectional peroxidase activity was found to be associated with Alternaria leaf blight resistance. The peroxidase activity can be used as a biochemical tool in marker-assisted screening of tomato germplasm for Alternaria leaf blight resistance.     

黄瓜对霜霉病抗性的显微和超微结构的研究

利用显微及透射和扫描电镜方法,研究了黄瓜对霜霉菌[Pseudoperonosporacubensis(Berk.et Curt.)Rostow.]的抗性机理,结果如下:抗病与感病品种叶表面的气孔密度和大小无明显区别,而病菌分生孢子在叶表面萌发情况有差异。抗病品种被病菌侵染后,细胞迅速颗粒化,与病菌一起死亡,两个侵染点之间的叶肉细胞大量繁殖,细胞中叶绿体减少,膜系统受到破坏,壁增厚,叶表面出现少量很小的病斑;中抗品种表现为少量菌丝蔓延,并产生分生孢子囊梗和孢子,受侵细胞的线粒体和叶绿体膜系统被破坏,随后内细胞和菌丝死亡,但比抗病品种慢,在叶表面形成很多病斑;感病品种表现为叶肉细胞内有大量菌丝蔓延,并产生分生孢子囊梗和孢子,受侵细胞被破坏、解体成碎片,最后与菌丝一起死亡,在叶表面联成大量的病斑。     

Purification and quantitation of a rat plasma selenoprotein distinct from glutathione peroxidase using monoclonal antibodies

Studies with 75Se have shown the existence of a rat plasma selenoprotein in addition to glutathione peroxidase. Because the function of the protein is not known, it has been referred to as selenoprotein P. A partially purified preparation was used to produce a monoclonal antibody to selenoprotein P. The antibody did not bind glutathione peroxidase as evidenced by its failure to remove glutathione peroxidase activity from rat plasma by immunoprecipitation. An immunoaffinity column was prepared with the monoclonal antibody, and selenoprotein P was purified 1270-fold from rat plasma in a two-step procedure. The purified selenoprotein P migrated in a single band with an Mr of 57,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Autoradiography demonstrated that this band contained 75Se when the protein was purified from rats which had received 75SeO2-(3). A competitive radioimmunoassay for selenoprotein P was developed. The selenoprotein P concentration in plasma of selenium-replete rats was determined with this assay to be 51 +/- 3.7 micrograms/ml. It was less than 5 micrograms/ml in plasma from selenium-deficient rats. Injection of 50 micrograms of selenium into selenium-deficient rats caused an increase in selenoprotein P from less than 10% of control to 52% of control in 6 h. Plasma glutathione peroxidase activity increased only from 2.2 to 3.1% of control. These experiments demonstrate that rat plasma contains a selenoprotein distinct from glutathione peroxidase. The concentration of this selenoprotein is depressed in selenium deficiency, as is glutathione peroxidase activity, but selenoprotein P increases more rapidly when selenium is supplied than does glutathione peroxidase activity.     

The Relationship Between Peroxidase Activity and Resistance to Sphaerotheca fuliginea in Melons

The levels of peroxidase activity in leaves of non-infected melon plants resistant to Sphaerotheca fuliginea (Schl. ex. Fr.) Poll. were considerably higher than those in the leaves of susceptible plants. After infection the ratio of peroxidase activity to that in non-infected plants reached a value of up to 47.5 in susceptible plants whereas in resistant plants it remained between 1 and 2. Changes in isozyme pattern were investigated by polyacrylamide gel electrophoresis. In non-infected resistant leaves slowly migrating isozymes were found. Their intensities increased with time following infection. These isozymes were absent in the susceptible leaves but appeared after the leaves had been infected with S. fuliginea. The role of these isozymes in the resistance mechanism is discussed.     

An eIF4E allele confers resistance to an uncapped and non-polyadenylated RNA virus in melon

The characterization of natural recessive resistance genes and virus-resistant mutants of Arabidopsis have implicated translation initiation factors of the 4E family [eIF4E and eIF(iso)4E] as susceptibility factors required for virus multiplication and resistance expression. To date, viruses controlled by these genes mainly belong to the family Potyviridae. Melon necrotic spot virus (MNSV) belongs to the family Tombusviridae (genus Carmovirus) and is an uncapped and non-polyadenylated RNA virus. In melon, nsv-mediated resistance is a natural source of recessive resistance against all strains of MNSV except MNSV-264. Analyses of chimeras between non-resistance-breaking and resistance-breaking strains have shown that the avirulence determinant maps to the 3'-untranslated region (3'-UTR) of the viral genome. Using a combination of positional cloning and microsynteny analysis between Arabidopsis thaliana and melon, we genetically and physically delimited the nsv locus to a single bacterial artificial chromosome clone and identified the melon eukaryotic translation initiation factor 4E (Cm-eIF4E) as a candidate gene. Complementation analysis using a biolistic transient expression assay, confirmed Cm-eIF4E as the product of nsv. A single amino acid change at position 228 of the protein led to the resistance to MNSV. Protein expression and cap-binding analysis showed that Cm-eIF4E encoded by a resistant plant was not affected in it's cap-binding activity. The Agrobacterium-mediated transient expression of the susceptibility allele of Cm-eIF4E in Nicotiana benthamiana enhanced MNSV-264 accumulation. Based on these results, a model to explain melon resistance to MNSV is proposed. These data, and data from other authors, suggest that translation initiation factors of the eIF4E family are universal determinants of plant susceptibility to RNA viruses.     

Induction of tumor cytotoxic immune cells using a protein from the bitter melon (Momordica charantia)

The fruit and seeds of the bitter melon (Momordica charantia) have been reported to have anti-leukemic and antiviral activities. This anti-leukemic and antiviral action was associated with an activation of murine lymphocytes. A partially purified protein factor from the bitter melon caused an infiltration and activation of peritoneal exudate cells in C57B1/6J, C3H/HeJ, and C3H/HeN mice. When the extract was injected twice a week at 8 micrograms of protein per ip injection for 0-4 weeks, the peritoneal exudate cells from the treated mice were cytotoxic in a long-term (18-hr) 51Cr-release assay against a range of labeled targets: L1210, P388, and MOLT-4 tumor cells. Cytotoxicity was also observed against YAC-1 targets in a short-term (4-hr) assay. Fractionation of the cytotoxic immune cells implicated a nonadherent cell population which was capable of killing an NK-sensitive cell line in a 4-hr 51Cr-release assay. Unit gravity sedimentation studies indicated that the cytotoxicity was due to either a neutrophil or a large lymphocyte. Antibody depletion experiments using antibody to asialo GM1, an NK cell-specific antibody, depleted cytotoxicity observed in nonadherent, Ficoll/Hypaque-separated PEC. This suggests that at least part of the anti-leukemic activity of the bitter melon extract is due to the activation of NK cells in the host mouse.     

An improved assay method for thyroid peroxidase applicable for a few milligrams of abnormal human thyroid tissues

A peroxidase assay method (Mini assay method) which is applicable for a minute amount (as small as a few mg) of thyroid tissue was developed, employing guaiacol or iodide as the second substrate. This method is a modification of the previous one (Ordinary assay method): the volume of the reaction mixture was reduced to about one-tenth with prior solubilization of the enzyme. The correlation between the Mini assay and Ordinary assay methods, and between the guaiacol and iodide assays by both methods were satisfactorily good, but the iodine content of thyroglobulin was found to be not directly correlated to the peroxidase activities. Protein-based specific activities of peroxidase from normal human thyroid tissue were about 0.030 guaiacol units/mg protein and 0.0066 iodide units/mg protein, which were slightly higher than those of porcine thyroid tissue. The Mini assay method developed in the present study was used for the determination of peroxidase activity in a small amount (1-8 mg) of thyroid tissue obtained by means of a needle biopsy from patients with thyroid disorders. One specimen (goitrous cretinism) showed no peroxidase activity in both the guaiacol and iodide assays, and three specimens (two chronic thyroiditis, one familial nontoxic goiter) possessed no ability to catalyze the oxidation of iodide in spite of the high reactivity towards guaiacol, suggesting the presence of an abnormal peroxidase in these tissues.     

Role of phenolic acids and enzymes of phenylpropanoid pathway in resistance of chayote fruit (Sechium edule) against infestation by melon fly,Bactrocera cucurbitae

Melon fly is a serious pest of cucurbits all over the world causing huge losses to yield. However, the only exception is the chayote fruit (Sechium edule) that shows resistance to melon fly infestation. Studies on culture of melon fly indicated the absence of plant traits resisting oviposition on chayote fruit. However, the melon fly was unable to complete its life cycle successfully on chayote showing that factors inhibiting larval development in melon fly could be attributed to biochemical constituents. Studies were, therefore, carried out to compare the biochemical responses of chayote, a melon fly resistant species and bitter gourd, a susceptible species to melon fly infestation with regard to the levels of phenolic acids and activities of the enzymes of phenylpropanoid pathway (PPP) leading to synthesis of lignin. The resistant chayote exhibited significantly higher accumulation of lignin associated with higher activities of phenylalanine ammonia‐lyase (PAL), tyrosine ammonia‐lyase (TAL), cinnamyl alcohol dehydrogenase (CAD) and peroxidase (POD). On the contrary, the susceptible bitter gourd recorded lower activities of PAL, CAD and POD and a decreasing trend of TAL during infestation associated with a lower lignin content. The monomer composition of lignin in the resistant chayote showed twofold higher level of guaiacyl (G) and syringyl (S) units compared to susceptible bitter gourd and the G/S ratio during infestation increased in chayote while decreasing in bitter gourd. The levels of PPP intermediates, p‐coumaric acid was higher in chayote while p‐hydroxy benzoic acid, a chemo‐attractant, was higher in bitter gourd. Incorporation of p‐coumaric acid in the larval diet strongly inhibited larval growth even as p‐hydroxy benzoic acid promoted growth confirming the direct role of p‐coumaric acid in conferring resistance to chayote. The level of salicylic acid, a signal molecule involved in induction of defence response, was higher in chayote compared to bitter gourd. Chayote also exhibited higher level of activity of POD in the phloem exudates compared to bitter gourd. The higher concentration of sugars in exudates of chayote might act like signalling molecules causing activation of plant genes, especially of the phenylpropanoid biosynthesis pathway and possibly produce an osmotic effect inducing resistance against the melon fly. Thus, the study revealed that the resistance in chayote to melon fly infestation is a complex, multi‐layered process in which the activities of PPP enzymes generating phenolic intermediates leading to lignin biosynthesis and the composition of exudates appear to play significant roles. Besides, the study also indicated that different forms of lignin might play a role in the resistance of chayote against melon fly infestation.     

The Relationships Between Activities of Indoleacetic Acid Oxidase,Peroxidase ahd Isoenzymes in Four Kinds of Calli

Aspen, Hami melon, soybean and tobacco calli were incubated in Miller's solid medium supplemented with IAA 4 mg/L and kinetin 0.5 mg/L. Activities of IAA-oxidase and peroxidase were determined at 0,5,10,15 and 25 days after incubation. The activities of IAA oxidase and peroxidase of Hami melon callus were found to be the highest and the tobacco was the lowest among the four different kinds of calli, both enzymes showed their peak value in 10 days after incubation. There were no change in pattern of peroxidase isoenzyme among the four kinds of calli during the incubation, but the activities of IAA-oxidase and its isoenzyme of Hami melon at bands A6, A7 and A8 were 3 to 17 folds higher than that of corresponding isoenzyme of other three kinds of calli.