Growth promotion and induced disease suppression of four vegetable crops by a selected plant growth-promoting rhizobacteria (PGPR) strain Bacillus subtilis 21-1 under two different soil conditions

This study aimed at investigating the efficacy of a PGPR strain, Bacillus subtilis 21-1 (BS21-1), under two different soil conditions for plant growth promotion and disease suppression. BS21-1 treatment significantly (P < 0.05) promoted plant growth as measured by plant height and leaf width and increased the seed germination rate in organic soil (OS) compared with seed bed soil (SBS). In Chinese cabbage and lettuce, soft rot disease was reduced to 45 and 23.5 %, respectively, by BS21-1, and to 33 and 52.5 %, respectively, by benzo-(1,2,3)-thidiazole-7-carbothioic acid S-methyl ester (BTH) treatments in OS compared with SBS. These levels of disease suppression were greater than those found in the water-treated control upon pathogen challenge. There was a greater reduction of anthracnose lesions on the leaves of cucumber plants treated with BS21-1 and BTH in OS when compared with SBS. Botrytis rot disease in tomato caused by Botrytis cinerea was drastically reduced to 2 % in OS and 4 % in SBS by BS21-1 treatment. In the four plants studied, there was increased disease suppression in OS compared with SBS. Upon treatment with BS21-1, there was an increased expression of the PR-1a gene by β-gulcuronidase (GUS) activity in tobacco (Nicotiana tabacum L. cv. Xanthi-nc) plants in OS compared with SBS, which indicates a possible role of the SA pathway in BS21-1 mediated plant protection. Thus, the isolate BS21-1 could effectively be used as one of the biocontrol agents for disease suppression in four vegetable crops through systemic resistance and for plant growth promotion.     

<Emphasis Type="SmallCaps">l</Emphasis>-Alanine augments rhizobacteria-induced systemic resistance in cucumber

Bacillus vallismortis strain EXTN-1 is a proven biotic elicitor of systemic resistance in many crops against various pathogens. l-Alanine (Ala) was tested in cucumber as a chemical elicitor of induced systemic resistance (ISR) against Colletotrichum orbiculare. In the greenhouse, both Ala and EXTN-1 induced significant levels of disease suppression in cucumber against anthracnose. When cucumber plants were treated with EXTN-1 and Ala together, augmentative disease suppression was observed. Experiments with transgenic tobacco plants carrying pathogenesis-related genes fused with the β-glucuronidase (GUS) reported gene (PR-1a::GUS & PDF 1.2::GUS) showed an enhanced activation of both PR-1a and PDF 1.2 genes upon combined treatment with Ala and EXTN-1. RT-PCR analysis with transgenic (PR-1a or PDF 1.2 over expressing) Arabidopsis plant showed more enhanced expression of resistance genes PR-1a and PDF 1.2 upon combined treatment with Ala and EXTN-1 than either alone. An augmentative ISR effect, when the bacterial elicitor and chemical elicitor were combined together, was confirmed.     

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.     

Induction of systemic resistance in tobacco against Tobacco mosaic virus by Bacillus spp.

Bacillus pumilus strain EN16 and Bacillus subtilis strain SW1 were tested for their systemic resistance and protection abilities against tobacco mosaic virus disease under greenhouse conditions. The results showed that strain EN16 and SW1 treatment significantly reduced mosaic symptoms and disease severity, resulting in 52 and 71% protection at 14 days of inoculation, respectively. A decreased amount of virus was detected in EN16- or SW1-treated tobacco plants by ELISA. Moreover, 5- and 7-day intervals between inducer treatment and pathogen inoculations were respectively required for strain EN16 and SW1 to induce optimal resistance. Further analysis on phenylalanine ammonia-lyase, peroxidase, polyphenol oxidase and pathogenesis-related (PR) proteins in tobacco showed that the amounts of defense enzymes and PR proteins significantly increased in Bacillus-treated plants challenged with pathogen when compared to control.     

Defense and resistance-inducing activities in tobacco of the sulfated beta-1,3 glucan PS3 and its synergistic activities with the unsulfated molecule

Laminarin, a beta-1,3 glucan with single beta-glucose branches at position 6, was chemically sulfated to produce PS3 with a degree of sulfation of 2.4. PS3 has previously been shown to activate the salicylic acid (SA) signaling pathway in infiltrated tobacco and Arabidopsis thaliana leaf tissues. Here, we investigated whether PS3 induces systemic defense and resistance responses in tobacco. Using a radiolabeled compound, it was first demonstrated that PS3 remains strictly localized to the infiltrated tissues. PS3 is also resistant to beta-glucanase degradation. In transgenic PR1-beta-glucuronidase (GUS) tobacco plants, PS3 causes a strong increase in GUS activity in treated tissues but none in untreated leaves. PS3-infiltrated tissues challenged with tobacco mosaic virus (TMV) 8 d after elicitor application show a decrease in both the lesion number and the lesion size, whereas treatment with laminarin, the unsulfated native glucan, affected only the lesion number. PS3 does not induce systemic acquired resistance to TMV. PS3 and laminarin show synergistic effects in promoting the oxidative burst in tobacco cell suspensions and in increasing the expression of genes encoding O-methyltransferases of the phenylpropanoid pathway in tobacco plants. No synergistic effect was observed on the expression of either the SA-dependent acidic PR1 gene or the ethylene-dependent basic PR5 gene in tobacco plants.     

The Arabidopsis ssi1 mutation restores pathogenesis-related gene expression in npr1 plants and renders defensin gene expression salicylic acid dependent.

The Arabidopsis NPR1 gene was previously shown to be required for the salicylic acid (SA)- and benzothiadiazole (BTH)-induced expression of pathogenesis-related (PR) genes and systemic acquired resistance. The dominant ssi1 (for suppressor of SA insensitivity) mutation characterized in this study defines a new component of the SA signal transduction pathway that bypasses the requirement of NPR1 for expression of the PR genes and disease resistance. The ssi1 mutation caused PR (PR-1, BGL2 [PR-2], and PR-5) genes to be constitutively expressed and restored resistance to an avirulent strain of Pseudomonas syringae pv tomato in npr1-5 (previously called sai1) mutant plants. In addition, ssi1 plants were small, spontaneously developed hypersensitive response-like lesions, accumulated elevated levels of SA, and constitutively expressed the antimicrobial defensin gene PDF1.2. The phenotypes of the ssi1 mutant are SA dependent. When SA accumulation was prevented in ssi1 npr1-5 plants by expressing the SA-degrading salicylate hydroxylase (nahG) gene, all of the phenotypes associated with the ssi1 mutation were suppressed. However, lesion formation and expression of the PR genes were restored in these plants by the application of BTH. Interestingly, expression of PDF1.2, which previously has been shown to be SA independent but jasmonic acid and ethylene dependent, was also suppressed in ssi1 npr1-5 plants by the nahG gene. Furthermore, exogenous application of BTH restored PDF1.2 expression in these plants. Our results suggest that SSI1 may function as a switch modulating cross-talk between the SA- and jasmonic acid/ethylene-mediated defense signal transduction pathways.     

Linoleic acid-induced expression of defense genes and enzymes in tobacco

Linoleic acid (LA) is a naturally occurring fatty acid (FA) found to elicit induced systemic resistance (ISR) of tobacco against the bacterial soft rot pathogen, Pectobacterium carotovorum subsp. carotovorum (PCC). In this study, we examined effects of six doses of exogenous LA on the induction of defense genes and enzymes. The optimum ISR activity was observed in plants treated with 0.1 mM LA where the effect of LA on membrane permeability was minimal. The application of LA as a root drench enhanced the activity of defense enzymes such as phenylalanine ammonia-lyase (PAL), peroxidase (POD), and polyphenol oxidase (PPO) and induced the expression of β-glucuronidase (GUS). PAL and POD activities were increased in a concentration dependent manner while the maximum PPO activity was observed after treatment with 0.01 mM LA. An RT-PCR analysis of the defense-related genes, Coi1, NPR1, PR-1a and PR-1b, of tobacco plants treated with 0.1 mM LA revealed an association of LA with elicitation of ISR in tobacco.     

Local and systemic protection of poinsettia (Euphorbia pulcherrima Willd.) against Botrytis cinerea Pers. induced by benzothiadiazole

Benzothiadiazole (BTH) was found to be highly effective in increasing resistance of two poinsettia cultivars — ‘Coco White’ and ‘Malibu Red’, moderately susceptible to the fungus Botrytis cinerea. BTH applied at a concentration of 0.3 mM on the discs cut out from the leaves of these poinsettia cultivars reduced disease symptoms by more than 60 % in comparison to the control discs treated with water and exposed to infection. It was also observed that the applied inducer at a concentration of 0.03 and 0.3 mM had a favourable influence on the increase of poinsettia systemic resistance of SAR type (systemic acquired resistance). The effectiveness of BTH was much less when disease development was examined on detached leaves (a 20 % reduction of lesion area) in comparison with a pronounced inhibition of grey mould development on intact leaves of previously induced plants (a 80 % protection of intact plants). Benzothiadiazole in the concentration range from 0.03 to 1.4 mM added to in vitro agar medium was not found to have an inhibitory influence on Botrytis cinerea mycelium growth and sporulation.     

GacS-dependent production of 2R, 3R-butanediol by Pseudomonas chlororaphis O6 is a major determinant for eliciting systemic resistance against Erwinia carotovora but not against Pseudomonas syringae pv. tabaci in tobacco

Root colonization by a plant-beneficial rhizobacterium, Pseudomonas chlororaphis O6, induces disease resistance in tobacco against leaf pathogens Erwinia carotovora subsp. carotovora SCC1, causing soft-rot, and Pseudomonas syringae pv. tabaci, causing wildfire. In order to identify the bacterial determinants involved in induced systemic resistance against plant diseases, extracellular components produced by the bacterium were fractionated and purified. Factors in the culture filtrate inducing systemic resistance were retained in the aqueous fraction rather than being partitioned into ethyl acetate. Fractionation on high-performance liquid chromatography followed by nuclear magnetic resonance mass spectrometry analysis identified the active compound as 2R, 3R-butanediol. 2R, 3R butanediol induced systemic resistance in tobacco to E. carotovora subsp. carotovora SCC1, but not to P. syringae pv. tabaci. Treatment of tobacco with the volatile 2R, 3R-butanediol enhanced aerial growth, a phenomenon also seen in plants colonized by P. chlororaphis O6. The isomeric form of the butanediol was important because 2S, 3S-butandiol did not affect the plant. The global sensor kinase, GacS, of P. chlororaphis O6 was a key regulator for induced systemic resistance against E. carotovora through regulation of 2R, 3R-butanediol production. This is the first report of the production of these assumed fermentation products by a pseudomonad and the role of the sensor kinase GacS in production of 2R, 3R-butanediol.     

Rhizobacterial exopolysaccharides elicit induced resistance on cucumber

The role of exopolysaccharides (EPSs) from a plant growth-promoting rhizobacterium, Burkholderia gladioli IN26, on elicitation of induced systemic resistance was investigated. A purified EPS induced expression of PR- 1a::GUS on tobacco and elicited induced resistance against Colletotrichum orbiculare on cucumber. The maximum level of disease protection was noted when seeds were soaked in 200 ppm of the EPS. Our results indicate that EPS from specific rhizobacteria can elicit induced resistance and suggest that bacterial EPS might be a useful elicitor of resistance under field conditions.     

Inducible cross-tolerance to herbicides in transgenic potato plants with the rat CYP1A1 gene

A gene of the enzyme involved in xenobiotic metabolism in mammalian liver was introduced into potato to confer inducible herbicide tolerance. A rat cytochrome P450 monooxygenase, CYP1A1 cDNA, was kept under the control of the tobacco PR1a promoter in order to apply the system of chemical inducible expression using the plant activator Benzothiadiazole (BTH). Transgenic plants were obtained based on the kanamycin resistance test and PCR analysis. Northern-blot analysis revealed the accumulation of mRNA corresponding to rat CYP1A1 in the transgenic plants treated with BTH (3.0 μmol/pot), whereas no accumulation of the corresponding mRNA occurred without BTH treatment. These transgenic plants also produced a protein corresponding to CYP1A1 in the leaves by BTH treatment. The transgenic plants with BTH application showed a much-higher tolerance to the phenylurea herbicides chlortoluron and methabenzthiazuron than non-transgenic plants. These findings indicated that the ability of metabolizing the two herbicides to less-toxic derivatives was displayed in the transgenic plants after BTH treatment. Transgenic plants harboring the CYP1A1 cDNA fused with the yeast P450 reductase (YR) gene under the control of PR1a were also produced. Although the plants showed a lower expression level of the fused gene than transgenic plants with CYP1A1 cDNA alone, they were tolerant to herbicides. These facts suggested that the CYP1A1 enzyme fused with YR showed a higher specific activity than CYP1A1 alone. This study demonstrated that the mammalian cDNA for the de-toxification enzyme of herbicides under the control of the PR1a promoter conferred chemical-inducible herbicide tolerance on potato. Received: 15 March 2001 / Accepted: 14 June 2001     

转录因子WRKY6和PR1在拟南芥胁迫记忆中的表达模式

植物暴露在细菌或其它微生物病原体下,会形成全身防御,称为系统获得性抗性SAR（Systemic Acquired Resistance）,该系统可以在病原体二次侵染时有效抑制病原体对植物的伤害。其中,WRKY转录因子和病程相关蛋白PRs（Pathogenesis-related proteins）在植物抗病信号调控途径中起着重要作用。本研究以模式植物拟南芥为实验材料,对WRKY6和PR1（PATHOGENESIS RELATED）两个转录因子进行初步研究。首先,从拟南芥eFP数据库中获得WRKY6和PR1的基因表达数据,进行生物信息学分析,获得WRKY6和PR1基因在不同胁迫条件下的表达热图。其次,通过实时荧光定量PCR技术,比较了经过生物胁迫和非生物胁迫处理后WRKY6和PR1的基因表达水平。结果表明,拟南芥经过生物胁迫丁香假单胞菌[Pseudomonas syringae pv.tomato（P_st） DC3000]处理后,WRKY6和PR1的基因表达模式具有一定的相似性,然而经过非生物胁迫和机械损伤组合处理后,WRKY6和PR1基因又呈现出不同的表达模式。本研究初步探索了WRKY6和PR1基因的表达模式及其关系,为今后进一步研究系统性获得抗性应答机制提供了思路。     

Activation of defense responses in Chinese cabbage by a nonhost pathogen, Pseudomonas syringae pv. tomato

Pseudomonas syringae pv. tomato (Pst) causes a bacterial speck disease in tomato and Arabidopsis. In Chinese cabbage, in which host-pathogen interactions are not well understood, Pst does not cause disease but rather elicits a hypersensitive response. Pst induces localized cell death and H2O2 accumulation, a typical hypersensitive response, in infiltrated cabbage leaves. Pre-inoculation with Pst was found to induce resistance to Erwinia carotovora subsp. carotovora, a pathogen that causes soft rot disease in Chinese cabbage. An examination of the expression profiles of 12 previously identified Pst-inducible genes revealed that the majority of these genes were activated by salicylic acid or BTH; however, expressions of the genes encoding PR4 and a class IV chitinase were induced by ethephon, an ethylene-releasing compound, but not by salicylic acid, BTH, or methyl jasmonate. This implies that Pst activates both salicylate-dependent and salicylate-independent defense responses in Chinese cabbage.     

Benzothiadiazole affects the leaf proteome in arctic bramble (Rubus arcticus)

Benzothiadiazole (BTH) induces resistance to the downy mildew pathogen, Peronospora sparsa, in arctic bramble, but the basis for the BTH‐induced resistance is unknown. Arctic bramble cv. Mespi was treated with BTH to study the changes in leaf proteome and to identify proteins with a putative role in disease resistance. First, BTH induced strong expression of one PR‐1 protein isoform, which was also induced by salicylic acid (SA). The PR‐1 was responsive to BTH and exogenous SA despite a high endogenous SA content (20–25 µg/g fresh weight), which increased to an even higher level after treatment with BTH. Secondly, a total of 792 protein spots were detected in two‐dimensional gel electrophoresis, eight proteins being detected solely in the BTH‐treated plants. BTH caused up‐ or down‐regulation of 72 and 31 proteins, respectively, of which 18 were tentatively identified by mass spectrometry. The up‐regulation of flavanone‐3‐hydroxylase, alanine aminotransferase, 1‐aminocyclopropane‐1‐carboxylate oxidase, PR‐1 and PR‐10 proteins may partly explain the BTH‐induced resistance against P. sparsa. Other proteins with changes in intensity appear to be involved in, for example, energy metabolism and protein processing. The decline in ATP synthase, triosephosphate isomerase, fructose bisphosphate aldolase and glutamine synthetase suggests that BTH causes significant changes in primary metabolism, which provides one possible explanation for the decreased vegetative growth of foliage and rhizome observed in BTH‐treated plants.     

病程相关基因启动子片段与GUS的融合基因在拟南芥中的表达

PR1是拟南芥(Arabidopsisis thaliana L.)系统获得抗性的一个标志基因.利用PCR技术,从拟南芥中扩增并克隆了PR1基因的启动子片段.将该启动子片段与GUS报告基因拼接,构建成含有PR1-GUS融合基因的重组表达质粒.经根癌农杆菌介导转化,得到了转基因的拟南芥植株.用已知的系统获得抗性激活剂处理转基因植物,检测到GUS活性.因此,这一转基因体系可以作为一种简便、灵敏的实验体系以筛选激活植物系统获得抗性的化合物.     

病程相关基因启动子片段与GUS的融合基因在拟南芥中的表达

PR1是拟南芥 (Arabidopsis thaliana L.) 系统获得抗性的一个标志基因。利用PCR技术,从拟南芥中扩增并克隆了PR1基因的启动子片段。将该启动子片段与GUS报告基因拼接,构建成含有PR1-GUS融合基因的重组表达质粒。经根癌农杆菌介导转化,得到了转基因的拟南芥植株。用已知的系统获得抗性激活剂处理转基因植物,检测到GUS活性。因此,这一转基因体系可以作为一种简便、灵敏的实验体系以筛选激活植物系统获得抗性的化合物。     

Induction of systemic resistance in rice to bacterial blight by 1,2,3-benzothiadiazole 7-carbothioic acid-S-methyl ester (BTH) treatments

Use of BTH to evaluate the disease severity and induction of systemic resistance in rice to bacterial blight caused by Xanthomonas oryzae pv. oryzae is investigated. A new batch of 25 isolates of Xanthomonas oryzae pv. oryzae was obtained from infected rice lead tissues collected from Pattambi, Kerala, south India. Their identification was confirmed by the plant inoculation test on to IR24 rice plants which produced characteristic bacterial blight lesions. Among the 25 of X.o. pv. oryzae, four of the isolates were also virulent to IRBB21 rice plants (a near isogenic line of IR24) which carry the Xa-21 gene for BB resistance. The results confirm that there are pathogen strains in India which can overcome Xa-21. Development of BB lesions developed in IR24 (BB susceptible) plants after they were treated with BTH applications either as seed treatment or as foliar spray at 0.1, 0.5, 0.1 and 2.0 mM concentrations showed that even at 2.0 mM concentrations, IR24 plants were still susceptible to the pathogen. There was very little or marginal effect of BTH on the induction of resistance to BB in IR24 rice plants. When the same concentrations of BTH were applied to IRBB21 (Xa-21) rice plants, they showed pronounced triggering of systemic resistance to BB pathogen even at 0.1 mM concentration of BTH applied either as seed treatment or as foliar spry. Disease severity index was reduced to 5 (against a score of 9 in untreated) and there was 85–86% reduction in BB incidence in plants that received 0.1 mM BTH. These results provide evidence that BTH-induced systemic resistance complements the R-gene resistance in IRBB21 plants but not in IR24 rice plants.     

利用转基因烟草确定AtELHYPRP2蛋白对赤霉菌的抗性及其亚细胞定位特征

采用遗传转化技术获得了整合有拟南芥AtELHYPRP2(EARLI1-LIKE HYBRID PROLINE-RICH PROTEIN 2,AT4G12500)基因的转基因烟草株系,研究了该基因编码蛋白对真菌病原体赤霉菌的抗性及其亚细胞定位特征。以拟南芥Col-0生态型基因组DNA为模板,通过聚合酶链反应扩增AtELHYPRP2基因编码序列,经限制性酶切后连接至pCAMBIA1302载体,构建产生pCAMBIA1302-AtELHYPRP2-GFP融合表达载体。进一步采用农杆菌LBA4404转化烟草叶片外植体,筛选得到转基因烟草植株。RT-PCR、Western blotting印迹分析结果显示,AtELHYPRP2基因在转化体中可以有效表达。激光共聚焦显微观察发现AtELHYPRP2-GFP融合蛋白产生的绿色荧光与碘化丙啶染色后产生的红色荧光能够重合,说明AtELHYPRP2蛋白定位于细胞表面。真菌侵染实验结果显示,组成性表达AtELHYPRP2基因能够增强烟草对赤霉菌的抗性,被侵染部位有明显的H2O2积累。转基因烟草植株中PR1基因的本底表达水平比野生型高,PR1和PR5基因的系统表达水平比野生型高,说明AtELHYPRP2基因可能在SAR反应中具有一定的作用。