The cell wall-modifying xyloglucan endotransglycosylase/hydrolase LeXTH1 is expressed during the defence reaction of tomato against the plant parasite Cuscuta reflexa

A suppressive subtractive hybridization technique was used to identify genes, which were induced during the early phases of the interaction between dodder (Cuscuta reflexa), a phanerogamic parasite, and its incompatible host plant tomato. One of the identified genes encodes a tomato xyloglucan endotransglycosylase/hydrolase (XTH)--an enzyme involved in cell wall elongation and restructuring. The corresponding LeXTH1 mRNA accumulated 6 h after attachment of the parasite. In contrast, wounding did not influence the expression level. Subsequent to LeXTH1 mRNA accumulation, an increase in XTH activity at the infection sites as well as in adjacent tissues was observed. The effect of IAA on LeXTH1 expression was analyzed because the concentration of this phytohormone is known to increase in the tomato tissue during the interaction with the parasite. LeXTH1 mRNA accumulation was in fact induced by external application of auxin. However, in the auxin-insensitive tomato mutant diageotropica, Cuscuta induced LeXTH1-mRNA accumulated with a time course similar to wild type tomato. Thus, auxin appears not to be an essential signal for infection-induced LeXTH1 activation. Our data suggest a role for xyloglucan transglycosylation in defence reactions associated with the incompatible tomato- Cuscuta interaction.     

An attack of the plant parasite Cuscuta reflexa induces the expression of attAGP, an attachment protein of the host tomato

Dodder or Cuscutaceae are holoparasitic plants subsisting on other dicotyledonous plants. The infection process is initiated by adherence of Cuscuta prehaustoria to the host surface, followed by penetration attempts by hyphae. In the case of a successful infection, these organs connect the parasite's vascular tissue to that of the host. Here we show that contact of Cuscuta reflexa prehaustoria to tomato induces the expression of a new arabinogalactan protein (AGP), attAGP, in the tomato precisely at the site of dodder attack. We show that attAGP is a plasma membrane-bound cell wall-localized protein. Using the RNAi technique and attAGP-targeted virus-induced gene silencing, we observed a correlation between attAGP expression level and force of attachment of the parasite to host tomatoes. If the expression level of attAGP was reduced, the C. reflexa attachment capability was significantly reduced, too. We conclude that C. reflexa infection induced a signal in the host leading to expression of tomato attAGP, which promotes the parasite's adherence.     

Role of lndole-3-acetic Acid in the Interaction of the Phanerogamic Parasite Cuscuta and Host Plants

Abstract: During infection with the phanerogamic parasite Cuscuta reflexa the incompatible host plant Lycopersicon esculentum shows characteristic anatomical tissue modifications at the infection sites that are exclusively provoked following contact with Cuscuta - striking cell elongation is observed in the hypo-dermis and collenchyma of the host plant. Due to the influence of auxins on the process of cell elongation in plants, the role of indole-3-acetic acid (IAA) in the interaction of Cuscuta and Lycopersicon was studied using a highly specific enzyme-linked im-munosorbent assay for hormone measurement. It was shown that the tissue modifications in the host plant as well as cell elongation in the parasite tissue leading to the formation of an adhesive-secretory epithelium are correlated with increasing IAA levels in the respective tissues. Both anatomical modifications can also be induced artificially by injection of IAA into control tissue. Based on the obtained data, it can be hypothesized that during the parasitic attack IAA is accumulated in the haus-toria-bearing regions of Cuscuta and exuded from the epithelial cells. Due to the close contact between host and parasite, the hormone probably enters the host plant tissue causing the observed anatomical reactions.     

Host-synthesized cysteine protease-specific inhibitor disrupts <Emphasis Type="Italic">Cuscuta campestris</Emphasis> parasitism in tomato

Dodder (Cuscuta campestris) is one of the most important pests of tomato causing severe losses in yield. Cuscutain is a pre-pro-protein produced by dodder that has a cysteine proteinase function essential for normal development of the haustoria and parasitism, which involves the secretion and activation of cuscutain cysteine protease in the host plant tissue. The propeptide subunit of this enzyme has an inhibitory function and restricts the enzymatic activity of cuscutain. Here, we transformed the inhibitory propeptide segment of this enzyme into tomato and examined the tomato resistance to C. campestris. We demonstrate the expression of inhibitory propeptide in transgenic plants and find that it effectively interrupted cuscutain enzyme activity and haustoria development at the endophytic stage. Mature haustoria infecting transgenic hosts showed defects in searching hyphae development and these structures were not elongate, and in most cases no functional haustoria were formed due to inhibitor expression in the transgenic plants after prehaustoria contact. Dodder grown on transgenic lines showed an overall reduction in vigor and fecundity due to defective attachment of haustoria. The increased growth of dodder-challenged transgenic plants relative to controls, demonstrates the efficacy of cysteine protease inhibition in parasite plant control.     

Identification and expression profiling of tomato genes differentially regulated during a resistance response to Xanthomonas campestris pv. vesicatoria

The gram-negative bacterium Xanthomonas campestris pv. vesicatoria is the causal agent of spot disease in tomato and pepper. Plants of the tomato line Hawaii 7981 are resistant to race T3 of X. campestris pv. vesicatoria expressing the type III effector protein AvrXv3 and develop a typical hypersensitive response upon bacterial challenge. A combination of suppression subtractive hybridization and microarray analysis identified a large set of cDNAs that are induced or repressed during the resistance response of Hawaii 7981 plants to X. campestris pv. vesicatoria T3 bacteria. Sequence analysis of the isolated cDNAs revealed that they correspond to 426 nonredundant genes, which were designated as XRE (Xanthomonas-regulated) genes and were classified into more than 20 functional classes. The largest functional groups contain genes involved in defense, stress responses, protein synthesis, signaling, and photosynthesis. Analysis of XRE expression kinetics during the tomato resistance response to X. campestris pv. vesicatoria T3 revealed six clusters of genes with coordinate expression. In addition, by using isogenic X. campestris pv. vesicatoria T2 strains differing only by the avrXv3 avirulence gene, we found that 77% of the identified XRE genes were directly modulated by expression of the AvrXv3 effector protein. Interestingly, 64% of the XRE genes were also induced in tomato during an incompatible interaction with an avirulent strain of Pseudomonas syringae pv. tomato. The identification and expression analysis of X. campestris pv. vesicatoria T3-modulated genes, which may be involved in the control or in the execution of plant defense responses, set the stage for the dissection of signaling and cellular responses activated in tomato plants during the onset of spot disease resistance.     

The H2O2-regulated Ep5C gene encodes a peroxidase required for bacterial speck susceptibility in tomato

Bacterial speck caused by the pathogen Pseudomonas syringae pv. tomato (P. s. tomato) is a devastating disease of tomato plants. Here we show that inhibition of Ep5C gene expression, which encodes a secreted cationic peroxidase, is sufficient to confer resistance against P. s. tomato. The inhibition of Ep5C protein accumulation in antisense tomato plants established resistance that was not accompanied by the pre-activation of known defense pathways. Therefore, Ep5C inhibition represents a novel form of disease resistance based on a loss-of-gene function in the plant required for successful infection by a compatible bacterial pathogen. Ep5C expression is rapidly induced by H2O2, a reactive oxygen intermediate normally generated during the course of a plant-pathogen interaction. This was corroborated by monitoring the expression of an Ep5C-GUS gene in transgenic Arabidopsis plants. Collectively, these results identify a signaling pathway that uses early signals generated during the oxidative burst, such as H2O2, for the selective activation of host factors required for mounting a compatible interaction. Thus, Ep5C provides a new resource for developing bacterial speck disease-resistant varieties.     

番茄热激蛋白90的全基因组鉴定及分析

热激蛋白90(Heat shock protein 90,Hsp90)是植物应对不良环境胁迫产生的一类特定的抗逆蛋白。文章以番茄(Solanum lycopersicum L.)基因组数据为平台,借助生物信息学方法对Hsp90基因家族进行鉴定与分析。结果表明,番茄至少含有7个Hsp90基因,不均匀分布在6条染色体上,氨基酸序列长度为267~794aa,内含子数目为2~19;共线性分析发现两对基因(Hsp90-1和Hsp90-3,Hsp90-5和Hsp90-7)以片段重复形式存在。MEME(Multiple Em for Motif Elicitation)分析显示,番茄Hsp90基因编码的氨基酸序列具有多个保守基序;聚类分析揭示番茄、水稻(Oryza sativa L.)和拟南芥(Arabidopsis thaliana L.)Hsp90基因可以分为5组,存在3对直系同源基因和4对旁系同源基因;基于RNA-seq数据库表达分析发现,3个基因(Hsp90-5、Hsp90-6和Hsp90-7)在营养器官和生殖器官中表达量较高,4个基因(Hsp90-1、Hsp90-2、Hsp90-3和Hsp90-4)除在番茄转色后10 d的果实中表达量较高外,其余组织中表达量均较低;对Hsp90基因启动子序列进行分析,发现了多个参与植物对逆境胁迫的顺式作用元件,如HSE、CCAAT-box。此外,qRT-PCR检测结果表明,在叶片热胁迫条件下,番茄Hsp90基因的表达量均存在增强趋势,表明这些基因参与了番茄叶片应对高温胁迫的反应。研究结果为鉴定番茄Hsp90基因的功能和进化起源奠定了基础。     

Cuscuta reflexa invasion induces Ca2+ release in its host

Cuscuta reflexa induces a variety of reaction in its hosts. Some of these are visual reactions, and it is clear that these morphological changes are preceded by events at the molecular level, where signal transduction is one of the early processes. Calcium (Ca²⁺) release is the major second messenger during signal transduction, and we therefore studied Ca²⁺ spiking in tomato during infection with C. reflexa. Bioluminescence in aequorin‐expressing tomato was monitored for 48 h after the onset of Cuscuta infestation. Signals at the attachment sites were observed from 30 to 48 h. Treatment of aequorin‐expressing tomato leaf disks with Cuscuta plant extracts suggested that the substance that induced Ca²⁺ release from the host was closely linked to parasite haustoria.     

Expression profile of jasmonic acid-induced genes and the induced resistance against the root-knot nematode (Meloidogyne incognita) in tomato plants (Solanum lycopersicum) after foliar treatment with methyl jasmonate

We investigated what gene(s) in the plant roots have the positive role against repressing root-knot nematode (RKN) infection. We investigated the interaction between RKN infection and gene expression in the plant roots induced by methyl jasmonate (MeJA). We focused on the induced resistance response and the duration after foliar treatment with MeJA of 0.1, 0.5, 1.0, and 5.0mM at 1, 24, 48, and 72h prior to the inoculation of RKN. As a result, the foliar treatment with MeJA at 0.5mM or higher concentrations significantly reduced the infection of RKN in plants and the effect lasted for about 1 week. The repressing effect on RKN population declined to the lowest level in two weeks after MeJA treatment. The expression of proteinase inhibitors (PIs) and multicystatin (MC) were induced while the repressing effect on RKN was valid and a negative correlation was found between the expression of PIs or MC and RKN infection. In addition, when tomato plants no longer expressing MC and PIs were treated again with MeJA, the repressing effect revived. These phenomena appeared to be regardless of the existence of Mi-genes or isolate of RKN. Our results indicate that the expression level of MC and PIs may be effective as marker genes for estimating the induced resistance response against RKN infection.     

Analysis of the interaction of Clavibacter michiganensis subsp. michiganensis with its host plant tomato by genome-wide expression profiling

Genome-wide expression profiles of the phytopathogenic actinomycete Clavibacter michiganensis subsp. michiganensis (Cmm) strain NCPPB382 were analyzed using a 70mer oligonucleotide microarray. Cmm causes bacterial wilt and canker of tomato, a systemic disease leading to substantial economic losses worldwide. Global gene expression was monitored in vitro after long- and short-term incubation with tomato homogenate to simulate conditions in planta and in vivo ten days after inoculation of tomatoes. Surprisingly, both in the presence of tomato homogenate and in planta known virulence genes (celA, chpC, ppaA/C) were down-regulated indicating that the encoded extracellular enzymes are dispensable in late infection stages where plant tissue has already been heavily destroyed. In contrast, some genes of the tomA-region which are involved in sugar metabolism showed an enhanced RNA-level after permanent growth in supplemented medium. Therefore, these genes may be important for utilization of plant derived nutrients. In the plant Cmm exhibited an expression profile completely different from that in vitro. Especially, the strong expression of genes of the wco-cluster (extracellular polysaccharide II), 10 genes encoding surface or pilus assembly proteins, and CMM_2382, coding for a putative perforin suggest a possible role of these genes in the plant-pathogenic interaction.     

Parasitism by Cuscuta pentagona sequentially induces JA and SA defence pathways in tomato

While plant responses to herbivores and pathogens are well characterized, responses to attack by other plants remain largely unexplored. We measured phytohormones and C₁₈ fatty acids in tomato attacked by the parasitic plant Cuscuta pentagona, and used transgenic and mutant plants to explore the roles of the defence‐related phytohormones salicylic acid (SA) and jasmonic acid (JA). Parasite attachment to 10‐day‐old tomato plants elicited few biochemical changes, but a second attachment 10 d later elicited a 60‐fold increase in JA, a 30‐fold increase in SA and a hypersensitive‐like response (HLR). Host age also influenced the response: neither Cuscuta seedlings nor established vines elicited a HLR in 10‐day‐old hosts, but both did in 20‐day‐old hosts. Parasites grew larger on hosts deficient in SA (NahG) or insensitive to JA [jasmonic acid‐insensitive1 (jai1) ], suggesting that both phytohormones mediate effective defences. Moreover, amounts of JA peaked 12 h before SA, indicating that defences may be coordinated via sequential induction of these hormones. Parasitism also induced increases in free linolenic and linoleic acids and abscisic acid. These findings provide the first documentation of plant hormonal signalling induced by a parasitic plant and show that tomato responses to C. pentagona display characteristics similar to both herbivore‐ and pathogen‐induced responses.     

Induced androgenesis in tomato (Lycopersicon esculentum Mill). II. Factors affecting induction of androgenesis

The influence on androgenesis of donor plant growth conditions, anther size and developmental stage of the microspore, medium composition and different anther treatments prior to culture was investigated in L. esculentum Mill. cv Roma and its hybrids. Growth conditions of donor plants affected the induction of tomato androgenesis. Anthers isolated from plants grown in the greenhouse during winter at high humidity and in short days possessed higher androgenetic ability than those grown in the field. The physiological state and age of the donor plants also influenced the processes investigated. Regarding the developmental stage of microspores, the period from prophase to telophase II is optimal for tomato anther implantation. More then 20 culture media were tested. Two, based on Murashige and Skoog medium were selected as most favourable for callus induction, organogenesis and regeneration. The effect on callus induction of 2ip in combination with indole-3-acetic acid (IAA) was greater than that of zeatin and IAA. Zeatin promoted entire plant regeneration. A highly significant interaction between genotype and medium was observed. Temperature and gamma ray treatments of anthers enhanced callus production, shoot formation and plant regeneration. Treatments at 4 °C (48 h) and 10 °C (9 days) stimulated these processes. Combined treatment of anthers with 4 Gy and 10 °C for 9 days was the most efficient. Received: 5 September 1997 / Revision recieved: 5 June 1998 / Accepted: 15 June 1998