Pathways of bacterial invasion and watermelon seed infection by Acidovorax citrulli

This study explored the pathways of ingress of Acidovorax citrulli, the causal agent of bacterial fruit blotch of cucurbits, into watermelon seeds. Up until 7 days post‐inoculation (DPI), a significantly higher percentage of watermelon seeds was infected with A. citrulli when the bacteria were applied (c. 1 × 10⁶ colony‐forming units) to stigmas versus ovary pericarps of female flowers. Immunofluorescence microscopy showed that, with stigma inoculation, A. citrulli colonized style and ovary tissues by 1 DPI, and the bacteria co‐localized with pollen germ tubes in these tissues. With ovary pericarp inoculation, A. citrulli cells penetrated the epicarp and mesocarp tissues by 1 DPI but did not reach endocarp until 4 DPI. Finally, manual pollination followed by stigma inoculation led to >53% A. citrulli‐infected seed lots, while A. citrulli was not detected in seeds/ovules generated by stigma inoculation without pollination (chemically induced parthenocarpy). These results show that stigma inoculation results in faster colonization of watermelon ovules by A. citrulli than pericarp inoculation, even though there is no difference in the levels of infection in mature seeds. The data also indicate that pollen germ tubes play an important role in A. citrulli ingress into watermelon seeds via stigmas.     

Characterization of Acidovorax citrulli strains isolated from solanaceous plants

Acidovorax citrulli is the causal agent of bacterial fruit blotch disease of cucurbits. Strains of this pathogen are distributed into two major groups: Group I strains have been mainly isolated from melon and other non-watermelon cucurbits, while Group II strains have been mainly recovered from watermelon. Here we report the characterization of strains T1 and EP isolated from diseased tomato and eggplant plants, respectively, and further confirmed to belong to A. citrulli species. Based on PCR, PFGE, and rep-PCR, these strains showed high similarity to the Group II strain 7a1. Sequencing and comparative analyses revealed that the genomes of T1 and EP aligned with that of the Group II model strain AAC00-1, over 97.88% and 99.22%, respectively. The virulence of T1, EP, and 7a1 determined on tomato, eggplant, and watermelon was similar and significantly higher than that of Group I strain M6. In contrast, M6 was more virulent on melon. Expression levels of seven virulence genes measured 24 hr after inoculation of tomato, eggplant, watermelon, and melon showed that the expression pattern was generally similar in strains 7a1, T1, and EP, whereas for M6 the expression was high only on melon. Overall, our results indicate that the solanaceous strains belong to Group II. To the best of our knowledge, this is the first study that reports characterization of A. citrulli strains isolated from solanaceous species. The fact that A. citrulli is able to naturally colonize and cause disease in non-cucurbit crops poses additional challenges for management of this important pathogen.     

Tn5 transposon mutagenesis in Acidovorax citrulli for identification of genes required for pathogenicity on cucumber

An Acidovorax citrulli–cucumber pathosystem was established through which A. citrulli mutants with altered pathogenicity, generated by transposon mutagenesis, were identified on cucumber cotyledons. The A. citrulli group I strain FC440 was shown to grow faster in cucumber leaf tissues than a group II strain and was used for Tn5 transposon mutagenesis. A total of 2100 Tn5 insertional mutants were generated, and analysis of the mutant library showed that the transposon insertions were single, independent and stable. A conserved non‐flagellar type III secretion system (NF‐T3SS) ATPase gene hrcN was identified and confirmed to be essential for pathogenicity and functionality of NF‐T3SS in A. citrulli. Comparative sequence analysis of the HrcN protein and its homologues in other representative bacterial plant pathogens revealed that the NF‐T3SS of A. citrulli is close to that of Ralstonia solanacearum and Xanthomonas campestris, but distant from that of Pseudomonas syringae and Erwinia amylovora. The generated Tn5 insertional mutant collection is valuable for identification of genes required for A. citrulli pathogenesis, and the established A. citrulli–cucumber pathosystem will facilitate an improved understanding of A. citrulli biology and pathology.     

Dynamics of the ascospore dispersal of Stagonosporopsis citrulli,a causal agent of gummy stem blight of cucurbits

Sexually reproduced, airborne ascospores of Stagonosporopsis citrulli may play a role in its dispersal. S. citrulli causes gummy stem blight (GSB), one of the most important foliar diseases of cucurbits. Four studies were conducted with S. citrulli to investigate for how long ascospores are released and how far they can be dispersed from a source field. In the first study, colonized watermelon debris was sampled during three seasons and samples were assayed for ascospore release. Ascospores were detected 292, 313, and 306 days after inoculation of the source. In the second study, the active release of ascospores from pseudothecia in a Petri dish was monitored for 7 days. The release of ascospores decreased by ≤90% from 1 day after the start of the assay until 7 days after. In the third study, trap plant assays were conducted to measure the dispersal gradient of ascospores up to 366 m from the source. Generally, frequency of pathogen recovery from trap plants decreased with increasing distance from the source. The ascospore dispersal data fitted the exponential model better than the power law model. In the final study, dispersal experiments were conducted under controlled conditions. The incidence of GSB decreased with increasing distance, up to 55 m, from the source. It was concluded that ascospores of S. citrulli can serve as primary inoculum for epidemics and could easily spread among fields. Debris from cucurbit crops can be the source of ascospores for up to 10 months and should be cleared expeditiously.     

Long‐term survival of Acidovorax citrulli in citron melon (Citrullus lanatus var. citroides) seeds

Long‐term survival of Acidovorax citrulli in citron melon (Citrullus lanatus var. citroides) seeds was investigated. Citron melon seed lots infected with A. citrulli were generated in the field by inoculating either the pistils (stigma) or pericarps (ovary wall) of the female blossoms. Seventeen A. citrulli isolates from 14 different haplotypes belonging to two different groups (group I and II) were used for inoculation. After confirming that 100% of seed lots were infected, they were stored at 4°C and 50% RH for 7 years. After storage, the viability of A. citrulli cells from individual lots was determined by plating macerated seeds on semiselective medium as well as growing seeds for 14 days and scoring for bacterial fruit blotch symptoms. The type of A. citrulli isolate (group I or group II) used did not significantly influence bacterial survival. However, A. citrulli survival was significantly greater in seed lots generated via pistil inoculation (52·9 and 29·4%) than via pericarp inoculation (23·5 and 17·6%). Repetitive extragenic palindrome (rep)‐PCR on A. citrulli isolated from citron melon seed lots after storage displayed similar fingerprinting patterns to those of the reference strains originally used for blossom inoculation, indicating that cross‐contamination did not occur. The results indicate that A. citrulli may survive/overwinter in citron melon seeds for at least 7 years and bacterial survival in seed was influenced more by method of blossom inoculation than by the type of bacterial isolate.     

Detection and identification of the crucifer pathogen, <Emphasis Type="Italic">Xanthomonas campestris</Emphasis> pv. <Emphasis Type="Italic">campestris</Emphasis>, by PCR amplification of the conserved Hrp/type III secretion system gene <Emphasis Type="Italic">hrcC</Emphasis>

The development of a rapid detection method for Xanthomonas campestris pv. campestris (Xcc) in crucifer seeds and plants is essential for high-throughput certification purposes. Here we describe a diagnostic protocol for the identification/detection of Xcc by PCR amplification of fragments from the pathogenicity-associated gene hrcC. Under stringent conditions of amplification, a PCR product of 519 bp from hrcC was obtained from a collection of 46 isolates of Xcc, with the exception of two isolates from radish. No amplicons were obtained from 39 pure cultures of the phytopathogenic bacteria Xanthomonas campestris pv. cerealicola, X. campestris pv. juglandis, X. campestris pv. pelargonii, X. campestris pv. vitians, X. arboricola pv. pruni, X. axonopodis pv. phaseoli, X. axonopodis pv. vesicatoria, X. vesicatoria, Pseudomonas syringae pv. phaseolicola, P. syringae pv. syringae, P. syringae pv. tomato, P. fluorescens, P. marginalis, Pectobacterium atrosepticum, P. carotovorum subsp. carotovorum. In addition, PCR reactions were negative for fifty unidentified environmental isolates purified from the surface of crucifers. The PCR fragment was obtained from four strains previously classified as X. campestris pv. aberrans, X. campestris pv. armorociae, X. campestris pv. barbarae and X. campestris pv. incanae using pathogenicity assays. Our PCR protocol specifically detected Xcc in inoculated leaves, seeds and naturally infected leaves of crucifers.     

A method to evaluate percentage of cucurbit seeds infested with <Emphasis Type="Italic">Acidovorax avenae</Emphasis> subsp. <Emphasis Type="Italic">citrulli</Emphasis>, pathogen of bacterial fruit blotch

We developed a method to detect Acidovorax avenae subsp. citrulli from cucurbit seeds that is more sensitive than conventional growing-out methods. Seeds were cultivated in test tubes for 2 weeks, and the bacteria grew semi-selectively on the seeds and seedlings. The plants were then vigorously shaken in water to suspend bacterial cells, and the suspension was spread on a selective medium for identifying the bacterium by colony appearance. The method is suitable for research purposes to evaluate the percentage of seeds infested with the bacteria, but not to detect bacterial contamination in commercial lots with thousands of seeds.     

Management of melon bacterial blotch by plant beneficial bacteria

Plant beneficial bacteria (PBB) have shown potential for disease control and are particularly important in the management of bacterial diseases, which are poorly controlled by conventional methods. In melon, bacterial fruit blotch caused by Acidovorax citrulli is a seedborne disease that is particularly destructive under certain conditions. PBB strains were screened for their ability to protect seeds and leaves from bacterial fruit blotch, and their antibiosis activity and plant colonization were studied. When Bacillus sp. RAB9 was applied to infected seeds, it reduced the area under the disease progress curve (AUDPC) by 47% and increased the incubation period (the time between inoculation and the first visible symptoms) by 35%. Three of the selected strains (JM339, MEN2 and PEP91) displayed antibiosis against A. citrulli. The RAB9^Rif-Nal mutant colonized seeds epiphytically and roots and stems endophytically. Paenibacillus lentimorbus MEN2 sprayed on melon seedlings protected leaves, and when challenged with A. citrulli, it reduced the AUDPC (by 88%), disease index (by 81%) and incidence (by 77%). Given that the production of both melon seedlings and commercially grown greenhouse melons is increasing, biocontrol strategies may well be integrated into bacterial blotch management programs.     

Genetic diversity and pathogenicity of cucurbit-associated <Emphasis Type="Italic">Acidovorax</Emphasis>

Bacterial fruit blotch of cucurbits is a destructive disease caused by Acidovorax avenae subsp. citrulli, which is a typical seedborne pathogen. In seed health testing for this disease, we have detected many strains of Acidovorax with some differences from A. avenae subsp. citrulli. Their 16S rRNA sequences were divided into six types. The most common sequence was completely consistent with that of A. avenae subsp. avenae originally isolated from rice. The other sequences were over 99% similar but not identical to those of A. avenae subsp. avenae and A. avenae subsp. citrulli. Some commercialized antibodies against A. avenae subsp. citrulli reacted with several of these strains. Some of these strains incited yellow spots or brownish water-soaked lesions mainly on young true leaves of cucumber and squash after spray inoculation. Histological observations showed that these strains entered the leaf tissues of cucurbit plants through stomata and multiplied in the intercellular spaces of parenchymatous tissues as well as in the vascular tissues. The amount of bacterial multiplication and spread in the tissues differed among the strains, presumably reflecting their ability to induce symptoms. These isolated strains are therefore different from A. avenae subsp. citrulli, and their potential threat to the cultivation of cucurbits is lower than that of A. avenae subsp. citrulli.     

Detection of Clavibacter michiganensis ssp. michiganensis in tomato seeds by immunofluorescence microscopy and dilution plating

A method for detectingClavibacter michiganensis ssp.michiganensis in tomato seeds was evaluated. The method is based on rapid screening of tomato seed lots using indirect immunofluorescence staining (IF), followed by dilution plating of IF positive seed lots. Different polyclonal antisera, prepared againstC. michiganensis ssp.michiganensis were tested for their specificity using IF. All strains ofC. michiganensis ssp.michiganensis tested reacted with the polyclonal antisera. Two of nine saprophytic isolates from tomato seeds were positive with the antisera as well as with the control normal serum, but cells of these isolates were distinct in shape from cells ofC. michiganensis ssp.michiganensis.For extraction of the pathogen from the seed, seeds were either blended with a stomacher or soaked at 4–6 °C. The stomacher method yielded more fluorescent cells in IF than 24 h soaking of seed samples. However, soaking of seeds for 48 h generally yielded less saprophytes and overall higher numbers ofC. michiganensis ssp.michiganensis colonies in dilution plating when compared to blending by a stomacher. SCM medium was generally more selective than KBT and modified CNS medium. However, the efficacy of the medium was dependent on the seed lot and/or extraction method used. Confirmation of suspected colonies with YDC (yeast-dextrose-carbonate medium), IF and a pathogenicity test on tomato seedlings proved to be highly reliable (P>0.95). For routine testing of seed lots it is recommended to screen tomato seed lost after soaking seeds for 24 h at 4–6 °C with IF, followed by plating of IF-positive seed lots on modified CNS and SCM after soaking seeds for an additional 24 h.     

Performance of real‐time PCR and immunofluorescence for the detection of Clavibacter michiganensis subsp. sepedonicus and Ralstonia solanacearum in potato tubers in routine testing

This paper describes a comparison study of test methods and supports the use of real‐time polymerase chain reaction (PCR) for the detection of Clavibacter michiganensis subsp. sepedonicus and Ralstonia solanacearum in potato tubers in routine testing. These 2 bacteria are quarantine organisms under European Union (EU) regulatory control and testing for (latent) infections of these bacteria in seed potatoes is mandatory. Real‐time PCR tests were performed on 276 routine potato tuber samples, including samples infected with either C. michiganensis subsp. sepedonicus or R. solanacearum, and the performance of these real‐time PCR tests was compared with that of immunofluorescence (IF). Real‐time PCR tests, using different primer sets and extraction and PCR protocols, proved to be sensitive and specific for the detection of C. michiganensis subsp. sepedonicus and R. solanacearum in potato tubers in routine testing, and performed at least as well as IF. Real‐time PCR is a good addition to the detection protocols as laid down in EU regulations (EU Council Directives 2006/56/EC and 2006/63/EC).     

Development of a specific molecular tool for detecting Xanthomonas campestris pv. musacearum

A specific and rapid diagnostic tool has been developed to detect Xanthomonas campestris pv. musacearum, the causal agent of bacterial wilt of banana. PCR primers were developed from intergenic regions of X. campestris pv. musacearum following its partial sequence. A total of 48 primers were tested for specificity to X. campestris pv. musacearum strains collected from various regions in Uganda. These were also tested for specificity against related Xanthomonas species from the vasicola group, Xanthomonas species pathogenic to other crops, and against those existing saprophytically on banana plants. Seven primer sets (Xcm12, Xcm35, Xcm36, Xcm38, Xcm44, Xcm47 and Xcm48) were found to be very specific to X. campestris pv. musacearum. These primer sets directed the amplification of the expected product for all 52 strains of X. campestris pv. musacearum collected from different locations in Uganda. No amplification products were obtained with unrelated phytopathogenic bacteria or endophytic/epiphytic bacteria from banana. A detection limit of 10³ CFU mL^?1 corresponding to about four cells per PCR reaction was observed when X. campestris pv. musacearum cells were used for all the seven primer sets. The DNA samples from symptomless plant tissues also tested positive with primer set Xcm38. The specific PCR method described here is a valuable diagnostic tool which can be used to detect the pathogen at early stages of infection and monitor disease.     

Genetic diversity analysis of Acidovorax citrulli in China

Acidovorax citrulli has become quite common in China. A collection of 118 strains of A. citrulli was made from throughout China and other countries to determine their genetic relatedness. Strains were identified as A. citrulli by pathogenicity, phenotypic characterization, and PCR. Genetic diversity was determined using pulsed field gel electrophoresis (PFGE) and multilocus sequence typing (MLST). PFGE electrophoresis resulted in nine genotypes, which could be typed into two groups based on host; group 1 included strains mainly from melon and group 2 included strains mainly from watermelon. MLST analysis resulted in 73 sequence types (ST) among the 118 A. citrulli strains. All A. citrulli strains were typed into three groups: group 1 with 82 strains (including type strain Fc247), group 2 with 35 strains and group 3 a singleton (Fc380). Similar to PFGE results, group 1 included strains mainly from melon and group 2 included strains mainly from watermelon. The difference was the 10 watermelon strains (pslbtw1-3, 5–11) from Beijing grouped with melon strains of group 1 based on MLST, suggesting that these 10 watermelon strains had a close relationship with melon. Our study indicated that there was genetic differentiation among A. citrulli strains between watermelon and melon. Also, our study was the first attempt to compare PFGE and MLST on analyzing genetic diversity of A. citrulli strains and proved MLST could better distinguish A. citrulli strains.     

Identification of genomic regions associated with resistance to blackleg (Leptosphaeria maculans) in canola using genome wide association study

Black rot of crucifers is one of the most important diseases of wild rocket (Diplotaxis tenuifolia L. (D.C.)) caused by the seedborne pathogen Xanthomonas campestris pv. campestris. From 2005, it frequently affected this cultivation in the south of Italy, leading to heavy crop losses. In the present work, we aimed to describe the physiological and molecular characteristics of twenty X. campestris pv. campestris strains isolated from plants and seeds. Ten Xanthomonas spp. strains contaminating seeds were identified on the basis of molecular characterization and in vivo pathogenicity on a discriminating host range. Some of seed-borne isolates were ascribed to the species Xanthomonas campestris pv. raphani and X. campestris pv. incanae, indicating the occurrence of non-host pathogenic Xanthomonas on wild rocket seeds. As well as the presence of pathogenic bacteria, even non-pathogenic Xanthomonas spp. strains were detected on the seeds, underlying the importance of identifying them to evaluate the suitability of lots intended for sowing. A phylogeny using 69 Gyrase B (gyrB) sequences retrieved from the literature, was also carried out, highlighting species relatedness. Overall, this study provides a comprehensive framework for Xanthomonas species affecting wild rocket in Southern Italy.

     

Application of Trichoderma harzianum Strain KABOFT4 for Management of Tomato Bacterial Wilt Under Greenhouse Conditions

Clavibacter michiganensis subsp. michiganensis is a very important pathogen that causes bacterial wilt of tomato (BWT). Biological control of plant diseases is a critical tool for protecting the environment from chemical pollution. Twenty-five isolates of the genus Trichoderma were obtained from a healthy tomato root. Of the 25 isolates, KABOFT4 showed highly antagonistic activity that controlled the growth of C. michiganensis subsp. michiganensis (Cmm7) under in vitro conditions. The 5.8S ribosomal RNA gene and internal transcribed spacer identified the isolate as Trichoderma harzianum KABOFT4. The effect of this isolate as a soil drench and/or foliar application on bacterial wilt under greenhouse conditions was studied. The germination percentage of tomato seed treated with KABOFT4 increased by 36.7% compared to infected seed treated with only the pathogen Cmm7. Under greenhouse conditions, tomato seedlings treated with KABOFT4 as a soil drench, foliar and soil treatment, and foliar treatment had a 61.3, 26.7, and 40% reduced disease severity relative to the infected control, respectively. All treatments had a positive effect on tomato plants that presented as greater vegetative growth and accumulation of dry matter. The best fresh and dry weight was recorded when plants were treated with KABOFT4 as a soil and foliar application. Tomato plants treated with KABOFT4 also had increased total phenol and flavonoid contents in inoculated and non-inoculated plants compared to untreated plants. Under greenhouse conditions, T. harzianum strains can be used as an environmentally friendly way to manage the most economically important tomato disease. The results showed that a native endophytic strain of T. harzianum was a potent biocontrol agent against C. michiganensis subsp. michiganensis. Application of this strain to tomatoes in the greenhouse resulted in a decrease in disease severity and an increase in crop biomass.

     

Analysis of the toxicity of purothionins and hordothionins for plant pathogenic bacteria

Purothionins (PTHs) and hordothionins (HTHs) were purified by cation-exchange chromatography from petroleum-ether extracts of wheat and barley flour respectively. The HTHs could be separated into two fractions, HTH-1 and HTH-2. Radial diffusion assays and micro-plate broth dilution assays with a number of plant pathogenic bacteria showed that these proteins were toxic forClavibacter michiganensis subsp.michiganensis, the causal agent of bacterial canker on tomato,C. m. subsp.sepedonicus, the causal agent of ring rot on potato, andXanthomonas campestris pv.vesicatoria, the causal agent of a spot disease on tomato and pepper. Only minor differences in toxicity between PTHs and HTHs, and between HTH-1 and HTH-2, were detected. Minor differences in toxicity of these thionins were also detected for different strains of these bacteria. The use of these plant proteins for engineering bacterial disease resistance into solanaceous crops will be discussed.     

瓠瓜果斑病症状及其病原菌的鉴定

为有效防控瓠瓜果斑病,自浙江省象山县田间采集具有典型果斑病症状的瓠瓜样本,对其进行病原菌分离、形态观察、致病性测定及分子生物学鉴定,并利用特异性引物PL1/PL2 PCR扩增和基质辅助激光解吸电离飞行时间质谱（matrix assisted laser desorption ionization time-of-flight massspectrometry,MALDI-TOF-MS）技术对其病原菌进行亚群鉴定。结果表明：瓠瓜果斑病田间典型症状是发病叶片和果实上病斑由水渍状小斑点逐渐发展为伴有黄色晕圈的褐色不规则病斑,果实腐烂、有臭味。通过菌体形态和培养特性观察、PCR鉴定、16S rDNA序列分析和7个看家基因的系统发育分析将其病原菌鉴定为西瓜噬酸菌Acidovorax citrulli。从瓠瓜上分离的菌株均属于西瓜噬酸菌亚群I,从西瓜上分离的菌株均属于西瓜噬酸菌亚群II。     

Potential for endozoochorous seed dispersal by sheep and goats: Risk of weed seed transport via animal faeces

Endozoochory is known as an important mechanism for the spread of weeds. We carried out experiments to assess the fate of seeds of several weed species (Convolvulus arvensis, Cuscuta campestris, Rumex crispus, Hordeum spontaneum and Sorghum halepense) after passing through the gut of sheep and goat. Eighteen animals of both sheep and goat received diet mixed with seeds of the weed species or control with only wheat bran (five weed species + control × three replications). Results showed that a higher proportion of seeds were missing after passage through the sheep gut than in goats. In goats, a greater proportion of seeds were dead after passage, but the number of seeds collected from dung was also greater. Weed species differed, with the highest seed recovery and viability in Cuscuta campestris. Based on time of seed passages through the animal gut estimated for the different weed species, we recommend that sheep should be kept in a corral for 96 hr to minimise seed transportation via their faeces. For goats, if R. crispus and C. arvensis seeds could be excluded from the diet, then maintaining them for 96 hr in an animal stall would ensure little seed transportation via dung, but we found R. crispus and C. arvensis seeds to be present and viable in goat dung even 120 hr after feeding. Very large numbers of viable seeds can be found in goat and sheep dung, so the use of rotted manure is highly recommended to avoid transportation of viable seeds via manure fertilisers.     

Direct antifungal activity of tiadinil,a systemic acquired resistance inducer,and thymol formulations on <Emphasis Type="Italic">Stagonosporopsis citrulli</Emphasis> and control of watermelon gummy stem blight

This study evaluated the direct antifungal activity of tiadinil [N-(3-chloro-4-methylphenyl)-4-methyl-1,2,3-thiadiazole-5-carboxamide], a systemic acquired resistance (SAR) inducer and two formulations of thymol (thymol I and thymol II) against Stagonosporopsis citrulli, the causal agent of gummy stem blight (GSB) disease of watermelon. Tiadinil, thymol I and thymol II completely inhibited the mycelial growth of S. citrulli in vitro at ≥?100 ppm. Conidial germination and germ tube elongation were completely inhibited by tiadinil at ≥?2000 ppm and by thymol-based formulations at ≥?100 ppm. A single foliar application of tiadinil at ≥?10 ppm or a single application of thymol I and II at ≥?1 ppm, 48 h before or after pathogen inoculation, significantly reduced disease severity of watermelon seedlings inoculated with 10⁵/ml conidial suspension of S. citrulli, compared to respective nontreated controls. Plants treated with foliar application of tiadinil at ≥?1000 ppm before pathogen inoculation had significantly lower disease severity than plants that received an equivalent drench application. The efficacy of foliar application of tiadinil was affected by concentration and frequency of application. The study suggests direct antifungal activity of tiadinil, indicating a new mode of action of tiadinil against GSB disease of watermelon. The study also demonstrated direct antifungal action of thymol, a formulated active compound of essential oils, against S. citrulli and GSB disease of watermelon.     

Development of a tomato plant resistant to Clavibacter michiganensis using the endolysin gene of bacteriophage CMP1 as a transgene

The bacteriophage CMP1 endolysin gene (lys), encoding, a peptidase that was shown to effectively reduce Clavibacter michiganensis by specifically hydrolysing its murein, was transferred into tomato plants by Agrobacterium‐mediated transformation. The presence of the gene was verified by PCR and the gene product was confirmed in immunoblots and stably expressed over three generations. Transgenic tomato plants did not show disease symptoms after infection with C. michiganensis subsp. michiganensis, despite the fact that small amounts of bacteria could still be identified in xylem sap and leaf extracts, although in significantly reduced amounts.