Your search keyword '"Cladosporium fulvum"' showing total 378 results

1. Early diagnosis of Cladosporium fulvum in greenhouse tomato plants based on visible/near-infrared (VIS/NIR) and near-infrared (NIR) data fusion

Author

Xuerong Zhao, Yuanyuan Liu, Zongbao Huang, Gangao Li, Zilin Zhang, Xiuhan He, Huiling Du, Meiqin Wang, and Zhiwei Li

Subjects

Data fusion, Early diagnosis, Hyperspectral imaging, Cladosporium fulvum, Tomato leaf, Medicine, Science

Abstract

Abstract Plant diseases can inflict varying degrees of damage on agricultural production. Therefore, identifying a rapid, non-destructive early diagnostic method is crucial for safeguarding plants. Cladosporium fulvum (C. fulvum) is one of the major diseases in tomato growth. This work presents a method of data fusion using two hyperspectral imaging systems of visible/near-infrared (VIS/NIR) and near-infrared (NIR) spectroscopy for the early diagnosis of C. fulvum in greenhouse tomatoes. First, hyperspectral images of samples at health and different times of infection were collected. The average spectral data of the image regions of interest were extracted and preprocessed for subsequent spectral datasets. Then different classification models were established for VIS/NIR and NIR data, optimized through various variable selection and data fusion methods. The principal component analysis-radial basis function neural network (PCA-RBF) model established using low-level data fusion achieved optimal results, achieving accuracies of 100% and 99.3% for calibration and prediction, respectively. Moreover, both the macro-averaged F1 (Macro-F1) values reached 1, and the geometric mean (G-mean) values reached 1 and 1, respectively. The results indicated that it was feasible to establish a PCA-RBF model by using the hyperspectral technique with low-level data fusion for the early detection of C. fulvum in greenhouse tomatoes.

Published

2024

2. Exploring the Antifungal Activity of Moroccan Bacterial and Fungal Isolates and a Strobilurin Fungicide in the Control of Cladosporium fulvum , the Causal Agent of Tomato Leaf Mold Disease.

Author

Belabess, Zineb, Gajjout, Bilale, Legrifi, Ikram, Barka, Essaid Ait, and Lahlali, Rachid

Subjects

FOURIER transform infrared spectroscopy, ANTIFUNGAL agents, TOMATOES, VOLATILE organic compounds, DISEASE incidence, BACILLUS amyloliquefaciens

Abstract

The causal agent of tomato leaf mold, Cladosporium fulvum, is prevalent in greenhouses worldwide, especially under high humidity conditions. Despite its economic impact, studies on antifungal agents targeting C. fulvum remain limited. This study evaluates biocontrol agents (BCAs) as alternatives to chemical controls for managing this disease, alongside the strobilurin fungicide azoxystrobin. From a Moroccan collection of potential BCAs, five bacterial isolates (Alcaligenes faecalis ACBC1, Pantoea agglomerans ACBC2, ACBP1, ACBP2, and Bacillus amyloliquefaciens SF14) and three fungal isolates (Trichoderma spp. OT1, AT2, and BT3) were selected and tested. The in vitro results demonstrated that P. agglomerans isolates reduced mycelial growth by over 60% at 12 days post-inoculation (dpi), while Trichoderma isolates achieved 100% inhibition in just 5 dpi. All bacterial isolates produced volatile organic compounds (VOCs) with mycelial inhibition rates ranging from 38.8% to 57.4%. Likewise, bacterial cell-free filtrates significantly inhibited the pathogen's mycelial growth. Greenhouse tests validated these findings, showing that all the tested isolates were effective in reducing disease incidence and severity. Azoxystrobin effectively impeded C. fulvum growth, particularly in protective treatments. Fourier transform infrared spectroscopy (FTIR) analysis revealed significant biochemical changes in the treated plants, indicating fungal activity. This study provides valuable insights into the efficacy of these BCAs and azoxystrobin, contributing to integrated management strategies for tomato leaf mold disease. [ABSTRACT FROM AUTHOR]

Published

2024

3. Molecular and genetic basis of tomato resistance to major fungal diseases

Author

M. V. Maslova, I. N. Shamshin, E. V. Grosheva, and A. S. Ilyichev

Subjects

tomato, phytophthora infestans, fusarium oxysporum, cladosporium fulvum, alternaria, resistance genes, marker selection, Agriculture

Abstract

This review presents an analysis of the literature, which indicates the popularity of breeding methods in the fight against oomycete and fungal diseases of tomato: late blight (pathogen − Phytophthora infestans (Mont.) de Bary), fusarium wilt (pathogen − Fusarium oxysporum f. sp. lycopersici (Sacc.) Snyder and Hansen), early blight or alternariosis (pathogens − representatives of the genus Alternaria), cladosporiosis (pathogen−Cladosporium fulvum Cook.). Theoretical and practical achievements, the latest developments in genetics, molecular biology, plant physiology, microbiology are considered. Special attention is paid to modern information about the diversity of tomato pathogens, their morphological, genetic, physiological features, including racial composition; the presence of pathogen resistance genes in the gene pool of the culture under study, their mapping and the possibility of introduction into the genome from other sources; about the developed markers of target genes and loci of quantitative traits; the degree of associations between a molecular marker and a target gene; about the features of inheritance of the studied trait, as well as the possibility of pyramiding R-genes and QTL in one genotype. To accelerate and improve the efficiency of tomato breeding for resistance to pathogens, these issues are of great importance. Their study will strengthen the integration of modern biotechnology with the traditional breeding process, which is carried out by classical methods.

Published

2023

4. The race distribution of the Fulvia fulva populations and mutations in the Avr genes in Turkey.

Author

Gül, Esra, Karakaya, Aziz, and Ergül, Ali

Subjects

*GENETIC mutation, *NUCLEOTIDE sequence, *DNA sequencing, *CLADOSPORIUM, *GENOTYPES

Abstract

Tomato leaf mould caused by Fulvia fulva (syn. Cladosporium fulvum, Passalora fulva) is an especially important disease of greenhouse grown tomato. In this study, F. fulva isolates were obtained from Antalya, Muğla, Mersin, Burdur, Bartın, and Zonguldak provinces of Turkey. Pathogenicity tests were carried out with 47 isolates using a differential set of tomato varieties containing Cf‐2, Cf‐4, Cf‐5, Cf‐6, Cf‐9, and Cf‐4/11 resistance genes and Cf‐0 with no resistance gene. As a result of pathogenicity tests, races 2, 2.4, 2.5, 2.9, 2.5.9, 2.4.11, and 2.4.5.9.11 were identified. The most frequent races were 2 and 2.5. In addition, mutations in the Avr2, Avr4, Avr4E, Avr5, and Avr9 genes were investigated. While mutations in Avr2 and Avr5 genes occurred within the coding region, Avr4E and Avr9 genes occurred outside the coding DNA sequence. Based on mutations in Avr genes and mating types, 14 genotypes of F. fulva were determined. This study revealed the race distribution of the F. fulva populations and mutations in the Avr genes in Turkey. It will contribute to studies on the population structure and control of the pathogen. [ABSTRACT FROM AUTHOR]

Published

2024

5. Sensitivity of tomato leaf mould–causing Fulvia fulva to seven succinate dehydrogenase inhibitor (SDHI) fungicides in Nara Prefecture, Japan and high efficacy of isofetamid in controlling SDHI‐resistant isolates.

Author

Asano, Shunsuke, Yoshida, Kandai, and Hirayama, Yoshihiko

Subjects

*SUCCINATE dehydrogenase, *FUNGICIDES, *GENE expression, *TOMATOES

Abstract

Leaf mould caused by Fulvia fulva is a major disease of tomato in Japan. Resistance to several types of fungicides, including succinate dehydrogenase inhibitors (SDHIs), has been reported in isolates from Japan. In this study, we evaluated the sensitivity of F. fulva to SDHI fungicides, SDHI fungicide efficacy in controlling sensitive and resistant isolates, and the presence of mutations in the Sdh B gene, the target site of SDHI fungicides. The minimum inhibitory concentration (MIC) of six SDHI fungicides, excluding isofetamid, ranged from 0.1 to >100 μg/mL against mycelial growth of 45 F. fulva isolates collected in Nara prefecture, Japan, whereas that of isofetamid ranged from 0.1 to only 10 μg/mL. The peak MIC distribution of fluopyram and isofetamid was 10 μg/mL, that of inpyrfluxam was 100 μg/mL and was >100 μg/mL for the remaining SDHI fungicides. In a greenhouse inoculation experiment, only isofetamid controlled the highly resistant isolates with an MIC of 10 μg/mL and the remaining fungicides had MIC >100 μg/mL. In addition, moderately and highly resistant isolates were controlled by the application of isofetamid 6 h or 7 days before inoculation or 3 days after inoculation. Mutations in the Sdh B gene were not observed among sensitive, moderately resistant and highly resistant isolates, suggesting that mutations in other Sdh genes and/or changes in efflux pump expression were involved. Our results indicate the presence of cross‐resistance and different levels of sensitivity reduction among SDHI fungicides. Isofetamid showed the lowest resistance development among the tested SDHI fungicides and is considered effective in controlling tomato leaf mould. [ABSTRACT FROM AUTHOR]

Published

2024

6. Exploring the Antifungal Activity of Moroccan Bacterial and Fungal Isolates and a Strobilurin Fungicide in the Control of Cladosporium fulvum, the Causal Agent of Tomato Leaf Mold Disease

Author

Zineb Belabess, Bilale Gajjout, Ikram Legrifi, Essaid Ait Barka, and Rachid Lahlali

Subjects

Solanum lycopersicum, Cladosporium fulvum, biocontrol agents, strobilurins, IPM, FTIR, Botany, QK1-989

Abstract

The causal agent of tomato leaf mold, Cladosporium fulvum, is prevalent in greenhouses worldwide, especially under high humidity conditions. Despite its economic impact, studies on antifungal agents targeting C. fulvum remain limited. This study evaluates biocontrol agents (BCAs) as alternatives to chemical controls for managing this disease, alongside the strobilurin fungicide azoxystrobin. From a Moroccan collection of potential BCAs, five bacterial isolates (Alcaligenes faecalis ACBC1, Pantoea agglomerans ACBC2, ACBP1, ACBP2, and Bacillus amyloliquefaciens SF14) and three fungal isolates (Trichoderma spp. OT1, AT2, and BT3) were selected and tested. The in vitro results demonstrated that P. agglomerans isolates reduced mycelial growth by over 60% at 12 days post-inoculation (dpi), while Trichoderma isolates achieved 100% inhibition in just 5 dpi. All bacterial isolates produced volatile organic compounds (VOCs) with mycelial inhibition rates ranging from 38.8% to 57.4%. Likewise, bacterial cell-free filtrates significantly inhibited the pathogen’s mycelial growth. Greenhouse tests validated these findings, showing that all the tested isolates were effective in reducing disease incidence and severity. Azoxystrobin effectively impeded C. fulvum growth, particularly in protective treatments. Fourier transform infrared spectroscopy (FTIR) analysis revealed significant biochemical changes in the treated plants, indicating fungal activity. This study provides valuable insights into the efficacy of these BCAs and azoxystrobin, contributing to integrated management strategies for tomato leaf mold disease.

Published

2024

7. Early diagnosis of Cladosporium fulvum in greenhouse tomato plants based on visible/near-infrared (VIS/NIR) and near-infrared (NIR) data fusion

Author

Zhao, Xuerong, Liu, Yuanyuan, Huang, Zongbao, Li, Gangao, Zhang, Zilin, He, Xiuhan, Du, Huiling, Wang, Meiqin, and Li, Zhiwei

Published

2024

8. Mapping of the Cladosporium fulvum resistance gene Cf-16, a major gene involved in leaf mold disease in tomato.

Author

Dongye Zhang, Huijia Li, Guan Liu, Libo Xie, Guojun Feng, and Xiangyang Xu

Subjects

TOMATO breeding, CLADOSPORIUM, TOMATO diseases & pests, TOMATOES, GENE mapping, GENES, FIELD research

Abstract

Tomato (Solanum lycopersicum) is widely cultivated and consumed worldwide. Tomato leaf mold, caused by Cladosporium fulvum, is one of the most devastating diseases in tomato production. At present, some tomato leaf mold resistance (Cf series) genes used in production gradually lose resistance due to the continuous and rapid differentiation of C. fulvum physiological races. The Cf-16 gene derived from the “Ontario7816” tomato cultivar has shown effective resistance in field trials for many years, but few studies have reported on the mapping of the Cf-16 gene, which has not been cloned, limiting its utilization in tomato breeding. Here, we mapped Cf-16 using a novel comprehensive strategy including bulk segregation analysis (BSA), genome resequencing and SSR molecular markers. A genetic analysis revealed that Cf-16 resistance in “Ontario7816” is controlled by one major dominant locus. The Cf-16 gene was mapped in a region of 2.6 cM at chromosome 6 between two markers, namely, TGS447 and TES312, by using an F 2 population from a cross between the resistant cultivar “Ontario7816” and susceptible line “Moneymaker.” Two nucleotide-binding- site-leucine-rich repeat (NBS-LRR) resistance genes, namely, XM_ 004240667.3 and XM_010323727.1, were identified in this interval. They are strong candidates for the Cf-16 gene. The mapping of Cf-16 may speed up its utilization for breeding resistant tomato varieties and represents an important step forward in our understanding of the mechanism underlying resistance to tomato leaf mold. [ABSTRACT FROM AUTHOR]

Published

2023

9. Integrating omics reveals that miRNA-guided genetic regulation on plant hormone level and defense response pathways shape resistance to Cladosporium fulvum in the tomato Cf-10-gene-carrying line.

Author

Guan Liu, Fengjiao Liu, Dongye Zhang, Tingting Zhao, Huanhuan Yang, Jingbin Jiang, Jingfu Li, He Zhang, and Xiangyang Xu

Subjects

GENETIC regulation, GENE expression, HORMONE regulation, CLADOSPORIUM, PLANT-pathogen relationships, PLANT hormones, PLANT resistance to viruses

Abstract

Invasion of C. fulvum causes the most serious diseases affecting the reproduction of tomatoes. Cf-10-gene-carrying line showed remarkable resistance to Cladosporium fulvum. To exploit its defense response mechanism, we performed a multiple-omics profiling of Cf-10-gene-carrying line and a susceptible line without carrying any resistance genes at non-inoculation and 3 days post-inoculation (dpi) of C. fulvum. We detected 54 differentially expressed miRNAs (DE-miRNAs) between the non-inoculation and 3 dpi in the Cf-10-genecarrying line, which potentially regulated plant-pathogen interaction pathways and hormone signaling pathways. We also revealed 3,016 differentially expressed genes (DEGs) between the non-inoculated and 3 dpi in the Cf-10-gene-carrying line whose functions enriched in pathways that were potentially regulated by the DE-miRNAs. Integrating DE-miRNAs, gene expression and plant-hormone metabolites indicated a regulation network where the downregulation of miRNAs at 3 dpi activated crucial resistance genes to trigger host hypersensitive cell death, improved hormone levels and upregulated the receptors/critical responsive transcription factors (TFs) of plant hormones, to shape immunity to the pathogen. Notably, our transcriptome, miRNA and hormone metabolites profiling and qPCR analysis suggested that that the downregulation of miR9472 potentially upregulated the expression of SAR Deficient 1 (SARD1), a key regulator for ICS1 (Isochorismate Synthase 1) induction and salicylic acid (SA) synthesis, to improve the level of SA in the Cf-10-gene-carrying line. Our results exploited potential regulatory network and new pathways underlying the resistance to C. fulvum in Cf-10-gene-carrying line, providing a more comprehensive genetic circuit and valuable gene targets for modulating resistance to the virus. [ABSTRACT FROM AUTHOR]

Published

2023

10. Evaluation of intravarietal polymorphism of tomato fungal disease resistance genes in Michurinsky State Agrarian University breeding varieties

Author

I. N. Shamshin, A. S. Ilyichev, and E. V. Grosheva

Subjects

tomato, marker-mediated selection, cladosporium fulvum, fusarium oxysporum, dna marker, Agriculture

Abstract

Relevance. The studies are aimed at assessing the intravarietal allelic diversity of genes for resistance to fusariosis and cladosporiosis of tomato cultivars bred at the Michurinsky State Agrarian University using molecular markers.Methods. The biological objects of the study are tomato varieties bred at the Michurinsky State Agrarian University. A total of 10 varieties were analyzed. The assessment of intravarietal polymorphism was determined on a sample of 10 plants of each variety. DNA extraction was performed using a Quick-DNA Plant/Seed Miniprep Kit (Zymo Research, USA) for DNA extraction according to the manufacturer's protocol. The P7 DNA marker was used to identify the cladosporosis resistance gene Cf-19. The presence of the fusarium wilt resistance gene I-2 was determined using the marker I-2/5. Amplification results were visualized by electrophoresis in 2% agarose gel.Results. 10 plants of 10 varieties of Michurinsky GAU selection tomato were analyzed using molecular markers of genes for resistance to cladosporiosis and fusariosis. An assessment of intravarietal polymorphism was carried out. In most of the varieties studied, the genes analyzed are identified in a heterozygous state. Three varieties (Vivat, Carotinka, Krasavets) containing only alleles of susceptibility to the causative agent of the disease in the genotype I-2 identified by the gene. Individual samples were homozygous for the fusariosis resistance allele. Analysis of the gene for Cf-19 resistance to cladosporiosis showed that most of the varieties studied are heterozygous forms. In some varieties, all ten plants were heterozygous. These include Krasavets, Vivat, Orlik, Bui Tour. The remaining samples had different allelic compositions. The pathogen resistance allele has been identified in plants of the Nepryadva and Chernysh varieties. The dominant allele in the homozygous state was detected in the Japanese variety. At the same time, all the analyzed plants of this variety were monotonous.Conclusion. It has been established, but a significant part of the varieties of tomato selection of Michurinsky GAU is polymorphic in the genes for resistance to cladosporiosis and fusariosis. In this case, a significant part of the varieties can be used in selection during preliminary molecular analysis. According to the gene for resistance to fusariosis, the following varieties are identified sources of the resistance allele: Sokol, Nepryadva, Yaponchik, Orlik, Zolotnichok, Chernysh. In them, the gene is I-2 represented in a heterozygous state. Intraortic polymorphism was also noted for the Cf-19 gene. Most samples have two alleles. The exception is the Japanese variety, which is the dominant homozygote for this gene.

Published

2022

11. Identification of Cladosporium fulvum infection responsive genes in tomato through cDNA-AFLP

Author

Guan Liu, Dongye Zhang, Tingting Zhao, Huanhuan Yang, Jingbin Jiang, Jingfu Li, He Zhang, Xiangyang Xu, and Xiaohang Hu

Subjects

Tomato, leaf mold, Cladosporium fulvum, cDNA-AFLP, Solanum lycopersicum, Biotechnology, TP248.13-248.65

Abstract

AbstractTomato (Solanum lycopersicum) is one of the highest-value vegetable crops worldwide, but tomato planting can be easily affected by leaf mold. Tomato leaf mold disease is caused by Cladosporium fulvum, and plants carrying the Cf genes have effective resistance to C. fulvum. To identify leaf mold resistant varieties and screen for specific cDNA amplified fragment length polymorphism (cDNA-AFLP) molecular markers, tomato plants harbouring genes Cf-5, Cf-11, Cf-19, and the moneymaker (MM) tomato line (without Cf gene) were used as plant materials. The changes in reactive oxygen species (ROS) levels and antioxidant activities of plant leaves after inoculation of C. fulvum were measured. Ethylene (ETH), abscisic acid (ABA) and salicylic acid (SA) contents were also determined. The results revealed that the ROS levels in Cf-19 tomato were the most sensitive to C. fulvum inoculation, while in MM they were the least. The antioxidant enzymes of Cf-carrying plants exhibited different activities as compared to those of MM. In the cDNA-AFLP analysis data, the expression of ERF109, sedoheptulose-1,7-bisphosphatase (SBPase), L-ascorbic acid oxidase (AAO) and Thioredoxin H2 (TRX2) were different between Cf-gene carriers and MM plants. In summary, in the process of leaf–mold interaction, the outbreak of ROS and development of systemic acquired resistance (SAR) are tightly combined with antioxidant enzymes, including thioredoxin. Tomato plants carrying the Cf-19 gene appear to have stronger C. fulvum resistance.

Published

2022

12. Physiological and transcriptome profiling revealed defense networks during Cladosporium fulvum and tomato interaction at the early stage.

Author

Rong Peng, Sheng Sun, Na Li, Lingjuan Kong, Zhifeng Chen, Peng Wang, Lurong Xu, Hehe Wang, and Xueqing Geng

Abstract

Tomato leaf mold caused by Cladosporium fulvum (C. fulvum) is a serious fungal disease which results in huge yield losses in tomato cultivation worldwide. In our study, we discovered that ROS (reactive oxygen species) burst was triggered by C. fulvum treatment in tomato leaves. RNA-sequencing was used to identify differentially expressed genes (DEGs) induced by C. fulvum inoculation at the early stage of invasion in susceptible tomato plants. Gene ontology (GO) terms and Kyoto Encyclopedia of Genes and Genomes (KEGG) databases were used to annotate functions of DEGs in tomato plants. Based on our comparative analysis, DEGs related to plant-pathogen interaction pathway, plant hormone signal transduction pathway and the plant phenylpropanoid pathway were further analyzed. Our results discovered that a number of core defense genes against fungal invasion were induced and plant hormone signal transduction pathways were impacted by C. fulvum inoculation. Further, our results showed that SA (salicylic acid) and ABA (abscisic acid) contents were accumulated while JA (jasmonic acid) content decreased after C. fulvum inoculation in comparison with control, and quantitative real-time PCR to detect the relative expression of genes involved in SA, ABA and JA signaling pathway further confirmed our results. Together, results will contribute to understanding the mechanisms of C. fulvum and tomato interaction in future. [ABSTRACT FROM AUTHOR]

Published

2022

13. Creation of new tomato forms with fungal disease resistance genes based on marker selection

Author

I. N. Shamshin, E. V. Grosheva, M. V. Maslova, and R. M. Samoilova

Subjects

tomato, marker-mediated selection, cladosporium fulvum, fusarium oxysporum, dna-marker, Agriculture

Abstract

Relevance. The presented studies are aimed at obtaining new forms of tomato with a complex of genes for resistance to fungal diseases in combination with a standard type of bush and dark coloring of fruits based on marker-mediated selection.Methodology. The biological objects of the study are varieties and hybrid forms of tomato from the collection of the Michurinsky SAU. Molecular genetic analysis was performed using the following methods. DNA extraction was carried out from young leaves using a kit for isolation of NC Sample NC manufactured by Agrodiagnostika LLC according to the manufacturer's protocol. Fermentas production kits were used for PCR. Identification of the cladosporosis resistance gene was Cf-19 performed using the DNA marker R7. The presence of a fusarious wilting resistance gene was determined by a I-2/5 marker. The amplification results were visualized by agarose gel electrophoresis.Results. During the research, a collection of varieties and hybrid forms of tomato of the Michurinsky GAU was analyzed in order to identify genes for resistance to cladosporiosis Cf-19 and fusarium wilt I-2. A total of 52 genotypes were analyzed. It was found that most samples (41 samples) are characterized by a heterozygous state of the Cf-19 gene. All indeterminant and semi-determinant forms had both alleles. Of the 23 determinant forms presented in the collection, 10 had only one allele corresponding to recessive homozygote. Among all analyzed tomato genotypes, no dominant homozygous forms were noted. The study of the collection revealed several alleles of the I-2 gene. In total, four fragments corresponding to various alleles were amplified. A total of 50 resistant genotypes have been identified in the collection. Two alleys of the I-2 gene (633/693 bp) were identified in 42 tomato samples. Four varieties are homozygous in one allele (633 bp), which determines resistance. Three varieties have a second resistance allele (566 bp). One genotype has only an allele defining susceptibility (693 bp). On the basis of molecular analysis, as well as an assessment of the type of bush and fetal color, initial forms were selected with subsequent hybridization. 67 hybrid tomato plants were obtained. Evaluation of the presence of resistance genes showed that most of the resulting hybrids are resistant to cladosporiosis and fuzariosis. This is due to the presence of dominant alleles of Cf-19 and I-2 genes in a heterozygous state. Among the resulting hybrids, plants with a bark type of bush were identified. A total of 13 such plants were obtained.Conclusion. Thus, the work carried out allowed to obtain hybrid forms of tomato combine the signs of resistance to two pathogens of fungal diseases and the stem type of the bush. These forms are planned to be used in further selection work.

Published

2021

14. The Diversity of Passalora fulva Isolates Collected from Tomato Plants in U.S. High Tunnels.

Author

Sudermann, Martha A., McGilp, Lillian, Vogel, Gregory, Regnier, Melissa, Jaramillo, Alejandra Rodríguez, and Smart, Christine D.

Subjects

*TUNNELS, *SINGLE nucleotide polymorphisms, *GROWING season, *GENETIC variation, *SYMPTOMS

Abstract

High tunnels extend the growing season of high value crops, including tomatoes, but the environmental conditions within high tunnels favor the spread of the tomato leaf mold pathogen, Passalora fulva (syn. Cladosporium fulvum). Tomato leaf mold results in defoliation, and if severe, losses in yield. Despite substantial research, little is known regarding the genetic structure and diversity of populations of P. fulva associated with high tunnel tomato production in the United States. From 2016 to 2019, a total of 50 P. fulva isolates were collected from tomato leaf samples in high tunnels in the Northeast and Minnesota. Other Cladosporium species were also isolated from the leaf surfaces. Koch’s postulates were conducted to confirm that P. fulva was the cause of the disease symptoms observed. Race determination experiments revealed that the isolates belonged to either race 0 (six isolates) or race 2 (44 isolates). Polymorphisms were identified within four previously characterized effector genes: Avr2, Avr4, Avr4e, and Avr9. The largest number of polymorphisms were observed for Avr2. Both mating type genes, MAT1-1-1 and MAT1-2-1, were present in the isolate collection. For further insights into the pathogen diversity, the 50 isolates were genotyped at 7,514 single-nucleotide polymorphism loci using genotyping-by-sequencing. Differentiation by region but not by year was observed. Within the collection of 50 isolates, there were 18 distinct genotypes. Information regarding P. fulva population diversity will enable better management recommendations for growers, as high tunnel production of tomatoes expands. [ABSTRACT FROM AUTHOR]

Published

2022

15. Transcriptome Analysis of the Cf-13 -Mediated Hypersensitive Response of Tomato to Cladosporium fulvum Infection.

Author

Jiang, Xiuming, Li, Yang, Li, Ran, Gao, Yijie, Liu, Zengbing, Yang, Huanhuan, Li, Jingfu, Jiang, Jingbin, Zhao, Tingting, and Xu, Xiangyang

Subjects

*REGULATOR genes, *CLADOSPORIUM, *PLANT-pathogen relationships, *TRANSCRIPTOMES, *SALICYLIC acid

Abstract

Tomato leaf mold disease caused by Cladosporium fulvum (C. fulvum) is one of the most common diseases affecting greenhouse tomato production. Cf proteins can recognize corresponding AVR proteins produced by C. fulvum, and Cf genes are associated with leaf mold resistance. Given that there are many physiological races of C. fulvum and that these races rapidly mutate, resistance to common Cf genes (such as Cf-2, Cf-4, Cf-5, and Cf-9) has decreased. In the field, Ont7813 plants (carrying the Cf-13 gene) show effective resistance to C. fulvum; thus, these plants could be used as new, disease-resistant materials. To explore the mechanism of the Cf-13-mediated resistance response, transcriptome sequencing was performed on three replicates each of Ont7813 (Cf-13) and Moneymaker (MM; carrying the Cf-0 gene) at 0, 9, and 15 days after inoculation (dai) for a total of 18 samples. In total, 943 genes were differentially expressed, specifically in the Ont7813 response process as compared to the Moneymaker response process. Gene ontology (GO) classification of these 943 differentially expressed genes (DEGs) showed that GO terms, including "hydrogen peroxide metabolic process (GO_Process)", "secondary active transmembrane transporter activity (GO_Function)", and "mismatch repair complex (GO_Component)", which were the same as 11 other GO terms, were significantly enriched. An analysis of the Kyoto Encyclopedia of Genes and Genomes (KEGG) revealed that many key regulatory genes of the Cf-13-mediated resistance response processes were involved in the "plant hormone signal transduction" pathway, the "plant–pathogen interaction" pathway, and the "MAPK signaling pathway–plant" pathway. Moreover, during C. fulvum infection, jasmonic acid (JA) and salicylic acid (SA) contents significantly increased in Ont7813 at the early stage. These results lay a vital foundation for further understanding the molecular mechanism of the Cf-13 gene in response to C. fulvum infection. [ABSTRACT FROM AUTHOR]

Published

2022

16. Identification of Cladosporium fulvum infection responsive genes in tomato through cDNA-AFLP.

Author

Liu, Guan, Zhang, Dongye, Zhao, Tingting, Yang, Huanhuan, Jiang, Jingbin, Li, Jingfu, Zhang, He, Xu, Xiangyang, and Hu, Xiaohang

Subjects

*ANTISENSE DNA, *TOMATOES, *PLANT genes, *CLADOSPORIUM, *PLANT enzymes, *REACTIVE oxygen species, *SALICYLIC acid

Abstract

Tomato (Solanum lycopersicum) is one of the highest-value vegetable crops worldwide, but tomato planting can be easily affected by leaf mold. Tomato leaf mold disease is caused by Cladosporium fulvum, and plants carrying the Cf genes have effective resistance to C. fulvum. To identify leaf mold resistant varieties and screen for specific cDNA amplified fragment length polymorphism (cDNA-AFLP) molecular markers, tomato plants harbouring genes Cf-5, Cf-11, Cf-19, and the moneymaker (MM) tomato line (without Cf gene) were used as plant materials. The changes in reactive oxygen species (ROS) levels and antioxidant activities of plant leaves after inoculation of C. fulvum were measured. Ethylene (ETH), abscisic acid (ABA) and salicylic acid (SA) contents were also determined. The results revealed that the ROS levels in Cf-19 tomato were the most sensitive to C. fulvum inoculation, while in MM they were the least. The antioxidant enzymes of Cf-carrying plants exhibited different activities as compared to those of MM. In the cDNA-AFLP analysis data, the expression of ERF109, sedoheptulose-1,7-bisphosphatase (SBPase), L-ascorbic acid oxidase (AAO) and Thioredoxin H2 (TRX2) were different between Cf-gene carriers and MM plants. In summary, in the process of leaf–mold interaction, the outbreak of ROS and development of systemic acquired resistance (SAR) are tightly combined with antioxidant enzymes, including thioredoxin. Tomato plants carrying the Cf-19 gene appear to have stronger C. fulvum resistance. [ABSTRACT FROM AUTHOR]

Published

2022

17. Genes Encoding Recognition of the Cladosporium fulvum Effector Protein Ecp5 Are Encoded at Several Loci in the Tomato Genome

Author

Michail Iakovidis, Eleni Soumpourou, Elisabeth Anderson, Graham Etherington, Scott Yourstone, and Colwyn Thomas

Subjects

cladosporium fulvum, tomato, plant disease resistance genes, cf-ecp5, convergent evolution, genetics of immunity, Genetics, QH426-470

Abstract

The molecular interactions between tomato and Cladosporium fulvum have been an important model for molecular plant pathology. Complex genetic loci on tomato chromosomes 1 and 6 harbor genes for resistance to Cladosporium fulvum, encoding receptor like-proteins that perceive distinct Cladosporium fulvum effectors and trigger plant defenses. Here, we report classical mapping strategies for loci in tomato accessions that respond to Cladosporium fulvum effector Ecp5, which is very sequence-monomorphic. We screened 139 wild tomato accessions for an Ecp5-induced hypersensitive response, and in five accessions, the Ecp5-induced hypersensitive response segregated as a monogenic trait, mapping to distinct loci in the tomato genome. We identified at least three loci on chromosomes 1, 7 and 12 that harbor distinct Cf-Ecp5 genes in four different accessions. Our mapping showed that the Cf-Ecp5 in Solanum pimpinellifolium G1.1161 is located at the Milky Way locus. The Cf-Ecp5 in Solanum pimpinellifolium LA0722 was mapped to the bottom arm of chromosome 7, while the Cf-Ecp5 genes in Solanum lycopersicum Ontario 7522 and Solanum pimpinellifolium LA2852 were mapped to the same locus on the top arm of chromosome 12. Bi-parental crosses between accessions carrying distinct Cf-Ecp5 genes revealed putative genetically unlinked suppressors of the Ecp5-induced hypersensitive response. Our mapping also showed that Cf-11 is located on chromosome 11, close to the Cf-3 locus. The Ecp5-induced hypersensitive response is widely distributed within tomato species and is variable in strength. This novel example of convergent evolution could be used for choosing different functional Cf-Ecp5 genes according to individual plant breeding needs.

Published

2020

18. Comparative transcriptome analysis reveals the response mechanism of Cf-16-mediated resistance to Cladosporium fulvum infection in tomato

Author

Dongye Zhang, Yufang Bao, Yaoguang Sun, Huanhuan Yang, Tingting Zhao, Huijia Li, Chong Du, Jingbin Jiang, Jingfu Li, Libo Xie, and Xiangyang Xu

Subjects

Comparative transcriptome, Cladosporium fulvum, Cf-16 tomato, Molecular mechanism, Botany, QK1-989

Abstract

Abstract Background Leaf mold disease caused by Cladosporium fulvum is a serious threat affecting the global production of tomato. Cf genes are associated with leaf mold resistance, including Cf-16, which confers effective resistance to leaf mold in tomato. However, the molecular mechanism of the Cf-16-mediated resistance response is largely unknown. Results We performed a comparative transcriptome analysis of C. fulvum-resistant (cv. Ontario7816) and C. fulvum-susceptible (cv. Moneymaker) tomato cultivars to identify differentially expressed genes (DEGs) at 4 and 8 days post inoculation (dpi) with C. fulvum. In total, 1588 and 939 more DEGs were found in Cf-16 tomato than in Moneymaker at 4 and 8 dpi, respectively. Additionally, 1350 DEGs were shared between the 4- and 8-dpi Cf-16 groups, suggesting the existence of common core DEGs in response to C. fulvum infection. The up-regulated DEGs in Cf-16 tomato were primarily associated with defense processes and phytohormone signaling, including salicylic acid (SA) and jasmonic acid (JA). Moreover, SA and JA levels were significantly increased in Cf-16 tomato at the early stages of C. fulvum infection. Contrary to the previous study, the number of up-regulated genes in Cf-16 compared to Cf-10 and Cf-12 tomatoes was significantly higher at the early stages of C. fulvum infection. Conclusion Our results provide new insight into the Cf-mediated mechanism of resistance to C. fulvum, especially the unique characteristics of Cf-16 tomato in response to this fungus.

Published

2020

19. Transcriptome profiling reveals the response process of tomato carrying Cf-19 and Cladosporium fulvum interaction

Author

Tingting Zhao, Wenhong Liu, Zhentong Zhao, Huanhuan Yang, Yufang Bao, Dongye Zhang, Ziyu Wang, Jingbin Jiang, Ying Xu, He Zhang, Jingfu Li, Qingshan Chen, and Xiangyang Xu

Subjects

Cf-19 gene, Solanum lycopersicum, Cladosporium fulvum, Tomato leaf mould, RNA-seq, Resistance response, Botany, QK1-989

Abstract

Abstract Background During tomato cultivation, tomato leaf mould is a common disease caused by Cladosporium fulvum (C. fulvum). By encoding Cf proteins, which can recognize corresponding AVR proteins produced by C. fulvum, Cf genes provide resistance to C. fulvum, and the resistance response patterns mediated by different Cf genes are not identical. Plants carrying the Cf-19 gene show effective resistance to C. fulvum in the field and can be used as new resistant materials in breeding. In this study, to identify key regulatory genes related to resistance and to understand the resistance response process in tomato plants carrying Cf-19, RNA sequencing (RNA-seq) was used to analyse the differences between the response of resistant plants (CGN18423, carrying the Cf-19 gene) and susceptible plants (Moneymaker (MM), carrying the Cf-0 gene) at 0, 7 and 20 days after inoculation (dai). Results A total of 418 differentially expressed genes (DEGs) were identified specifically in the CGN18423 response process. Gene Ontology (GO) analysis revealed that GO terms including “plasma membrane (GO_Component)”, “histidine decarboxylase activity (GO_Function)”, and “carboxylic acid metabolic process (GO_Process)”, as well as other 10 GO terms, were significantly enriched. The “plant hormone signal transduction” pathway, which was unique to CGN18423 in the 0–7 dai comparison, was identified. Moreover, ten key regulatory points were screened from the “plant hormone signal transduction” pathway and the “plant pathogen interaction” pathway. Hormone content measurements revealed that the salicylic acid (SA) contents increased and peaked at 7 dai, after which the contents deceased and reached minimum values in both CGN18423 and MM plants at 20 dai. The jasmonic acid (JA) content increased to a very high level at 7 dai but then decreased to nearly the initial level at 20 dai in CGN18423, while it continued to increase slightly during the whole process from 0 to 20 dai in MM. Conclusions The initial responses are very different between the resistant and susceptible plants. The “plant hormone signal transduction” pathway is important for the formation of Cf-19-mediated immunity. In addition, both JA and SA play roles in regulating the Cf-19-dependent resistance response.

Published

2019

20. Molecular mapping of the Cf-10 gene by combining SNP/InDel-index and linkage analysis in tomato (Solanum lycopersicum)

Author

Guan Liu, Tingting Zhao, Xiaoqing You, Jingbin Jiang, Jingfu Li, and Xiangyang Xu

Subjects

Tomato, Cladosporium fulvum, Cf-10 gene, QTL mapping, SNP-index, InDel-index, Botany, QK1-989

Abstract

Abstract Background Leaf mold, one of the major diseases of tomato caused by Cladosporium fulvum (C. fulvum), can dramatically reduce the yield and cause multimillion dollar losses annually worldwide. Mapping the resistance genes (R genes) of C. fulvum and devising MAS based strategies for breeding new cultivars is an effective approach to improve the resistance in tomato. Up to now, many C. fulvum genes or QTLs have been mapped using different genetic materials, but few studies focused on Cf-10 gene positioning. Results In this study, we investigated the genetic rules for Cf-10 and used a novel combinatorial strategy to rapidly map the Cf-10 gene. Initially, the performance of F1, F2 and BC1F1 individuals after infection, demonstrated that the resistance against C. fulvum was controlled by a single dominant gene. Two pools of resistant and susceptible individuals from F2 population were investigated, using mapping by sequencing approach and Cf-10 was found to be localized to 3.35 Mb and 3.74 Mb on chromosome 1, employing SNP/InDel index methods, respectively. After accounting for overlapping regions, these two algorithms yielded a total length of 3.29 Mb, narrowing down the target region. We further developed five serviceable KASP markers for this region based on sequencing data and conducted local QTL mapping using individuals from the F2 population, except for mapping by sequencing as mentioned above. Finally Cf-10 gene was mapped spanning a region of 790 kb, where only one gene (Solyc01g007130.3) was annotated as probable receptor protein kinase TMK1 with a LRR motif, a common R gene characteristic. The RT-qPCR analysis further confirmed the localization and the relative expression of Solyc01g007130.3 in Ontario 792 and was found to be significantly higher than that in Moneymaker at 9 dpi and 12 dpi, respectively. Conclusion This study proposed a novel combinatorial strategy by combining SNP-index, InDel-index analyses and local QTL mapping using KASP genotyping approach to rapidly map genes responsible for specific traits and provided a robust base for cloning the Cf-10 gene. Furthermore, these analyses suggest that Solyc01g007130.3 is a potential candidate to be regarded as Cf-10 gene.

Published

2019

21. Fulvia fulva [syn. Cladosporium fulvum, Passalora fulva] races in Argentina are evolving through genetic changes and carry polymorphic avr and ecp gene sequences.

Author

Lucentini, César G., Medina, Roció, Franco, Mario E. E., Saparrat, Mario C. N., and Balatti, Pedro A.

Abstract

The aim of this work was to study further the population of Fulvia fulva [syn. Cladosporium fulvum, Passalora fulva] in Argentina particularly in terms of diversity at the genetic level by means of ISSR. Also, we studied polymorphisms within avr and ecp sequences, what incidentally might lead to the development of new races. Argentinian tomato cultivars only are affected by two races of F. fulva and the data we provide here indicates that the populations of these two races are under an evolutionary process. Representatives of them had several polymorphisms within the coding sequences of effectors, but they are not constrained to avr genes, probably because, based on field data, resistant cultivars are not available. Most polymorphisms observed in avr and ecp genes were deletions or insertions (INDELs) or single nucleotide polymorphisms (SNPs). Therefore, probably the environment and management practices are the most important factors driving evolution of these races in Argentina and this might explain why the pathogen population is not driven at the pathogenic or race level. [ABSTRACT FROM AUTHOR]

Published

2021

22. Transcriptome Analysis of the Cf-13-Mediated Hypersensitive Response of Tomato to Cladosporium fulvum Infection

Author

Xiuming Jiang, Yang Li, Ran Li, Yijie Gao, Zengbing Liu, Huanhuan Yang, Jingfu Li, Jingbin Jiang, Tingting Zhao, and Xiangyang Xu

Subjects

Solanum lycopersicum, Cladosporium fulvum, RNA-seq, Cf-13 gene, resistance response, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Tomato leaf mold disease caused by Cladosporium fulvum (C. fulvum) is one of the most common diseases affecting greenhouse tomato production. Cf proteins can recognize corresponding AVR proteins produced by C. fulvum, and Cf genes are associated with leaf mold resistance. Given that there are many physiological races of C. fulvum and that these races rapidly mutate, resistance to common Cf genes (such as Cf-2, Cf-4, Cf-5, and Cf-9) has decreased. In the field, Ont7813 plants (carrying the Cf-13 gene) show effective resistance to C. fulvum; thus, these plants could be used as new, disease-resistant materials. To explore the mechanism of the Cf-13-mediated resistance response, transcriptome sequencing was performed on three replicates each of Ont7813 (Cf-13) and Moneymaker (MM; carrying the Cf-0 gene) at 0, 9, and 15 days after inoculation (dai) for a total of 18 samples. In total, 943 genes were differentially expressed, specifically in the Ont7813 response process as compared to the Moneymaker response process. Gene ontology (GO) classification of these 943 differentially expressed genes (DEGs) showed that GO terms, including “hydrogen peroxide metabolic process (GO_Process)”, “secondary active transmembrane transporter activity (GO_Function)”, and “mismatch repair complex (GO_Component)”, which were the same as 11 other GO terms, were significantly enriched. An analysis of the Kyoto Encyclopedia of Genes and Genomes (KEGG) revealed that many key regulatory genes of the Cf-13-mediated resistance response processes were involved in the “plant hormone signal transduction” pathway, the “plant–pathogen interaction” pathway, and the “MAPK signaling pathway–plant” pathway. Moreover, during C. fulvum infection, jasmonic acid (JA) and salicylic acid (SA) contents significantly increased in Ont7813 at the early stage. These results lay a vital foundation for further understanding the molecular mechanism of the Cf-13 gene in response to C. fulvum infection.

Published

2022

23. Occurrence of tomato leaf mold caused by novel race 2.4.9 of Cladosporium fulvum in Japan.

Author

Yoshida, Kandai, Asano, Shunsuke, Sushida, Hirotoshi, and Iida, Yuichiro

Subjects

*CLADOSPORIUM, *TOMATO diseases & pests, *ALLELES, *GENOTYPES

Abstract

Leaf mold disease caused by Cladosporium fulvum appeared on tomato cultivars carrying the Cf-9 resistance gene in Nara Prefecture, Japan, in 2018. We inoculated a differential set of tomato cultivar with six isolates of the fungus and identified two isolates as race 2.9 and four as 2.4.9. We also sequenced their Avr and mating-type genes. All Avr alleles have been found previously in Japanese populations of C. fulvum, but the genotypes of both races were new, suggesting that these isolates have newly emerged in Nara Prefecture. [ABSTRACT FROM AUTHOR]

Published

2021

24. Population studies of the wild tomato species Solanum chilense reveal geographically structured major gene-mediated pathogen resistance.

Author

Kahlon, Parvinderdeep S., Seta, Shallet Mindih, Zander, Gesche, Scheikl, Daniela, Hückelhoven, Ralph, Joosten, Matthieu H. A. J., and Stam, Remco

Subjects

*SPECIES, *TOMATOES, *DISEASE resistance of plants, *PLANT populations, *PATHOGENIC microorganisms

Abstract

Natural plant populations encounter strong pathogen pressure and defence-associated genes are known to be under selection dependent on the pressure by the pathogens. Here, we use populations of the wild tomato Solanum chilense to investigate natural resistance against Cladosporium fulvum, a well-known ascomycete pathogen of domesticated tomatoes. Host populations used are from distinct geographical origins and share a defined evolutionary history. We show that distinct populations of S. chilense differ in resistance against the pathogen. Screening for major resistance gene-mediated pathogen recognition throughout the whole species showed clear geographical differences between populations and complete loss of pathogen recognition in the south of the species range. In addition, we observed high complexity in a homologues of Cladosporium resistance (Hcr) locus, underlying the recognition of C. fulvum, in central and northern populations. Our findings show that major gene-mediated recognition specificity is diverse in a natural plant-pathosystem. We place major gene resistance in a geographical context that also defined the evolutionary history of that species. Data suggest that the underlying loci are more complex than previously anticipated, with small-scale gene recombination being possibly responsible for maintaining balanced polymorphisms in the populations that experience pathogen pressure. [ABSTRACT FROM AUTHOR]

Published

2020

25. Studies to define hydrophobin functions in Cladosporium fulvum

Author

Lacroix, Helene Anne

Subjects

579.5, Cladosporium fulvum

Abstract

Cladosporium fulvum is the causative agent of tomato leaf mould and has at least 6 hydrophobins named HCf-I to -6. To investigate the function of the six hydrophobins, three approaches were carried out: 1) Analysis of the expression of the six hydrophobins using quantitative PCR performed in vitro; 2) The immunolocalisation of the six hydrophobins in vitro and in plan/a; 3) RNAi silencing to silence up to six hydrophobin genes. The main results generated from the expression and localisation studies of the hydrophobins showed that not only are the hydrophobins produced at different times, but most unexpectedly, that they were located in different portions of the mycelium. Thus HCf-I, HCf-2 and HCf-3 were found in patches on the conidia, and on the aerial hyphae that produce the conidia. HCf-4 appeared in small areas both in the mycelium that is submerged in the agar and in the aerial hyphae. HCf-5 was visible only on the aerial hyphae at the time of sporulation, but was not found on the conidia. HCf-6 was secreted by the young hyphae 24 hours after germination and was evident as a layer on the surface of the growth medium, not associated with fungal structures. As HCf-6 accumulates at the periphery of the hyphae during tissue invasion, it was hypothesised that it might serve a role in adhesion. Assays were carried out to measure the adhesion of hyphae of the wild type and four ~HCf-6 strains to glass slides. The result show that hyphae of mCf-6 adhere significantly better than those of the wild type strain. Thus, HCf-6 does not act as an adhesion factor but more as a surfactant. Hydrophobin-less mutants by targeted single gene deletion were created but did not have evident phenotypes (Whiteford and Spanu, 2001). In order to investigate the possibility that several hydrophobin genes together contribute to fulfil a function or complement each other in knock-out strains, RNAi-based multigene silencing constructs were prepared and transformed into C. fulvum. Results show that the gene silencing constructs cause a reduction (up to 98%) of mRNA levels for the targeted hydrophobin genes. The silencing seems to be happening throughout the development of the fungus for single silenced strains, but not for multiple silenced strains. Complementation was observed between hydrophobins as the silencing of one hydrophobin affected the expression of the non-targeted hydrophobins. The silencing of all hydrophobins simulteanously in one strain showed to be less vigorous than the wild type, indicating that although the six hydrophobins ate not individually necessary for the fungus and can complement each other for certain functions, if all the six hydrophobins are disminished then the fungus is affected.

Published

2007

26. Genes Encoding Recognition of the Cladosporium fulvum Effector Protein Ecp5 Are Encoded at Several Loci in the Tomato Genome.

Author

Iakovidis, Michail, Soumpourou, Eleni, Anderson, Elisabeth, Etherington, Graham, Yourstone, Scott, and Thomas, Colwyn

Subjects

*MOLECULAR plant diseases, *TOMATOES, *PLANT breeding, *TOMATO diseases & pests, *CONVERGENT evolution, *GENOMES, *PLANT gene mapping

Abstract

The molecular interactions between tomato and Cladosporium fulvum have been an important model for molecular plant pathology. Complex genetic loci on tomato chromosomes 1 and 6 harbor genes for resistance to Cladosporium fulvum, encoding receptor like-proteins that perceive distinct Cladosporium fulvum effectors and trigger plant defenses. Here, we report classical mapping strategies for loci in tomato accessions that respond to Cladosporium fulvum effector Ecp5, which is very sequence-monomorphic. We screened 139 wild tomato accessions for an Ecp5-induced hypersensitive response, and in five accessions, the Ecp5-induced hypersensitive response segregated as a monogenic trait, mapping to distinct loci in the tomato genome. We identified at least three loci on chromosomes 1, 7 and 12 that harbor distinct Cf-Ecp5 genes in four different accessions. Our mapping showed that the Cf-Ecp5 in Solanum pimpinellifolium G1.1161 is located at the Milky Way locus. The Cf-Ecp5 in Solanum pimpinellifolium LA0722 was mapped to the bottom arm of chromosome 7, while the Cf-Ecp5 genes in Solanum lycopersicum Ontario 7522 and Solanum pimpinellifolium LA2852 were mapped to the same locus on the top arm of chromosome 12. Bi-parental crosses between accessions carrying distinct Cf-Ecp5 genes revealed putative genetically unlinked suppressors of the Ecp5-induced hypersensitive response. Our mapping also showed that Cf-11 is located on chromosome 11, close to the Cf-3 locus. The Ecp5-induced hypersensitive response is widely distributed within tomato species and is variable in strength. This novel example of convergent evolution could be used for choosing different functional Cf-Ecp5 genes according to individual plant breeding needs. [ABSTRACT FROM AUTHOR]

Published

2020

27. Comparative transcriptome analysis reveals the response mechanism of Cf-16-mediated resistance to Cladosporium fulvum infection in tomato.

Author

Zhang, Dongye, Bao, Yufang, Sun, Yaoguang, Yang, Huanhuan, Zhao, Tingting, Li, Huijia, Du, Chong, Jiang, Jingbin, Li, Jingfu, Xie, Libo, and Xu, Xiangyang

Subjects

*TOMATOES, *TOMATO diseases & pests, *CLADOSPORIUM, *SALICYLIC acid, *JASMONIC acid, *LEAF diseases & pests, *COMPARATIVE studies

Abstract

Background: Leaf mold disease caused by Cladosporium fulvum is a serious threat affecting the global production of tomato. Cf genes are associated with leaf mold resistance, including Cf-16, which confers effective resistance to leaf mold in tomato. However, the molecular mechanism of the Cf-16-mediated resistance response is largely unknown. Results: We performed a comparative transcriptome analysis of C. fulvum-resistant (cv. Ontario7816) and C. fulvum-susceptible (cv. Moneymaker) tomato cultivars to identify differentially expressed genes (DEGs) at 4 and 8 days post inoculation (dpi) with C. fulvum. In total, 1588 and 939 more DEGs were found in Cf-16 tomato than in Moneymaker at 4 and 8 dpi, respectively. Additionally, 1350 DEGs were shared between the 4- and 8-dpi Cf-16 groups, suggesting the existence of common core DEGs in response to C. fulvum infection. The up-regulated DEGs in Cf-16 tomato were primarily associated with defense processes and phytohormone signaling, including salicylic acid (SA) and jasmonic acid (JA). Moreover, SA and JA levels were significantly increased in Cf-16 tomato at the early stages of C. fulvum infection. Contrary to the previous study, the number of up-regulated genes in Cf-16 compared to Cf-10 and Cf-12 tomatoes was significantly higher at the early stages of C. fulvum infection. Conclusion: Our results provide new insight into the Cf-mediated mechanism of resistance to C. fulvum, especially the unique characteristics of Cf-16 tomato in response to this fungus. [ABSTRACT FROM AUTHOR]

Published

2020

28. Transcriptome profiling reveals the response process of tomato carrying Cf-19 and Cladosporium fulvum interaction.

Author

Zhao, Tingting, Liu, Wenhong, Zhao, Zhentong, Yang, Huanhuan, Bao, Yufang, Zhang, Dongye, Wang, Ziyu, Jiang, Jingbin, Xu, Ying, Zhang, He, Li, Jingfu, Chen, Qingshan, and Xu, Xiangyang

Subjects

*REGULATOR genes, *CLADOSPORIUM, *JASMONATE, *TOMATO diseases & pests, *TOMATOES, *SALICYLIC acid, *JASMONIC acid, *PLANT hormones

Abstract

Background: During tomato cultivation, tomato leaf mould is a common disease caused by Cladosporium fulvum (C. fulvum). By encoding Cf proteins, which can recognize corresponding AVR proteins produced by C. fulvum, Cf genes provide resistance to C. fulvum, and the resistance response patterns mediated by different Cf genes are not identical. Plants carrying the Cf-19 gene show effective resistance to C. fulvum in the field and can be used as new resistant materials in breeding. In this study, to identify key regulatory genes related to resistance and to understand the resistance response process in tomato plants carrying Cf-19, RNA sequencing (RNA-seq) was used to analyse the differences between the response of resistant plants (CGN18423, carrying the Cf-19 gene) and susceptible plants (Moneymaker (MM), carrying the Cf-0 gene) at 0, 7 and 20 days after inoculation (dai). Results: A total of 418 differentially expressed genes (DEGs) were identified specifically in the CGN18423 response process. Gene Ontology (GO) analysis revealed that GO terms including "plasma membrane (GO_Component)", "histidine decarboxylase activity (GO_Function)", and "carboxylic acid metabolic process (GO_Process)", as well as other 10 GO terms, were significantly enriched. The "plant hormone signal transduction" pathway, which was unique to CGN18423 in the 0–7 dai comparison, was identified. Moreover, ten key regulatory points were screened from the "plant hormone signal transduction" pathway and the "plant pathogen interaction" pathway. Hormone content measurements revealed that the salicylic acid (SA) contents increased and peaked at 7 dai, after which the contents deceased and reached minimum values in both CGN18423 and MM plants at 20 dai. The jasmonic acid (JA) content increased to a very high level at 7 dai but then decreased to nearly the initial level at 20 dai in CGN18423, while it continued to increase slightly during the whole process from 0 to 20 dai in MM. Conclusions: The initial responses are very different between the resistant and susceptible plants. The "plant hormone signal transduction" pathway is important for the formation of Cf-19-mediated immunity. In addition, both JA and SA play roles in regulating the Cf-19-dependent resistance response. [ABSTRACT FROM AUTHOR]

Published

2019

29. A conserved GH17 glycosyl hydrolase from plant pathogenic Dothideomycetes releases a DAMP causing cell death in tomato.

Author

Ökmen, Bilal, Bachmann, Daniel, and Wit, Pierre J.G.M.

Subjects

*CELL death, *POTATO virus X, *FUNGAL cell walls, *TOMATOES, *CAUSES of death, *HOST plants, *PHYTOPHTHORA infestans

Abstract

Summary: To facilitate infection, pathogens deploy a plethora of effectors to suppress basal host immunity induced by exogenous microbe‐associated or endogenous damage‐associated molecular patterns (DAMPs). In this study, we have characterized family 17 glycosyl hydrolases of the tomato pathogen Cladosporium fulvum (CfGH17) and studied their role in infection. Heterologous expression of CfGH17‐1 to 5 by potato virus X in different tomato cultivars showed that CfGH17‐1 and CfGH17‐5 enzymes induce cell death in Cf‐0, Cf‐1 and Cf‐5 but not in Cf‐Ecp3 tomato cultivars or tobacco. Moreover, CfGH17‐1 orthologues from other phytopathogens, including Dothistroma septosporum and Mycosphaerella fijiensis, also trigger cell death in tomato. CfGH17‐1 and CfGH17‐5 are predicted to be β‐1,3‐glucanases and their enzymatic activity is required for the induction of cell death. CfGH17‐1 hydrolyses laminarin, a linear 1,3‐β‐glucan with 1,6‐β linkages. CfGH17‐1 expression is down‐regulated during the biotrophic phase of infection and up‐regulated during the necrotrophic phase. Deletion of CfGH17‐1 in C. fulvum did not reduce virulence on tomato, while constitutive expression of CfGH17‐1 decreased virulence, suggesting that abundant presence of CfGH17‐1 during biotrophic growth may release a DAMP that activates plant defence responses. Under natural conditions CfGH17‐1 is suggested to play a role during saprophytic growth when the fungus thrives on dead host tissue, which is in line with its high levels of expression at late stages of infection when host tissues have become necrotic. We suggest that CfGH17‐1 releases a DAMP from the host cell wall that is recognized by a yet unknown host plant receptor. [ABSTRACT FROM AUTHOR]

Published

2019

30. Hexaconazole and binary mixtures of it plus fludioxonil efficiently control tomato leaf mold caused by Cladosporium fulvum.

Author

Hu, Shuai, Li, Xiuhuan, Chen, Lele, Wu, Yueming, Meng, Lingtao, Wang, Kai, Li, Beixing, and Liu, Feng

Subjects

TOMATOES, CLADOSPORIUM, FIELD research, CURVE fitting, FUNGICIDE resistance, BINARY mixtures

Abstract

Leaf mold caused by Cladosporium fulvum is one of the most severe foliar diseases of tomato. We were interested in whether we could use a binary mixture of hexaconazole and fludioxonil for the management of tomato leaf mold. The results showed that hexaconazole with an EC 50 value of 0.30 μg/ml could significantly inhibit the mycelial growth of C. fulvum. A total of 126 isolates collected from Shandong Province were used to determine their sensitivity to hexaconazole, and the data fit a bimodal curve with a mean EC 50 value of 4.69 μg/ml. The optimal proportion of the binary mixture of hexaconazole and fludioxonil against C. fulvum was 1:2, and its synergistic ratio (SR) was 2.23. Field trials in 2018 and 2019 indicated that both hexaconazole and the binary mixture of hexaconazole and fludioxonil (1:2) had favorable protective and curative efficacy against tomato leaf mold. Applying hexaconazole at 67.50 g/ha resulted in higher efficacy than did flusilazole at 75.00 g/ha, which had been registered in China to control tomato leaf mold. In addition, a binary mixture of hexaconazole and fludioxonil (1:2) at 60.75 g/ha had an efficacy of 85%, which was significantly higher than that of a commercial binary mixture of fluopyram and trifloxystrobin at 150.00 g/ha. Even when applied at 20.25 g/ha, hexaconazole could also provide better efficacy than thiophanate-methyl could regardless of whether it was applied before or after the occurrence of tomato leaf mold. In summary, hexaconazole and its binary mixture with fludioxonil (1:2) could be favorable candidates for the management of tomato leaf mold. • There was no cross-resistance between hexaconazole and fludioxonil. • Mixtures of hexaconazole and fludioxonil have synergistic effect against C. fulvum. • The best binary mixture of hexaconazole and fludioxonil against C. fulvum was 1:2. • Hexazolol and flubenzazole (1:2) of 60.75 g/ha were virtual against tomato leaf mold. [ABSTRACT FROM AUTHOR]

Published

2023

31. Production of a Recombinant Dermaseptin Peptide in Nicotiana tabacum Hairy Roots with Enhanced Antimicrobial Activity.

Author

Shams, Marzieh Varasteh, Nazarian-Firouzabadi, Farhad, Ismaili, Ahmad, and Shirzadian-Khorramabad, Reza

Abstract

Expression of strong antimicrobial peptides in plants is of great interest to combat a wide range of plant pathogens. To bring the Dermaseptin B1 (DrsB1) peptide to the intimate contact of the plant pathogens cell wall surface, the DrsB1 encoding sequence was fused to the C-terminal part of the two copies of the chitin-binding domain (CBD) of the Avr4 effector protein and used for Agrobacterium rhizogenes-mediated transformation. The expression of the recombinant protein in the tobacco hairy roots (HRs) was confirmed by molecular analysis. Antimicrobial activity analysis of the recombinant protein purified from the transgenic HRs showed that the (CBD)2-DrsB1 recombinant protein had a significant (p < 0.01) antimicrobial effect on the growth of different fungal and bacterial pathogens. The results of this study indicated that the recombinant protein had a higher antifungal activity against chitin-producing Alternaria alternata than Pythium spp. Scanning electron microscopy images demonstrated that the recombinant protein led to fungal hypha deformation, fragmentation, and agglutination of growing hypha, possibly by dissociating fungal cell wall components. In vitro evidences suggest that the expression of the (CBD)2-DrsB1 recombinant protein in plants by generating transgenic lines is a promising approach to produce disease-resistant plants, resistance to chitin-producing pathogenic fungi. [ABSTRACT FROM AUTHOR]

Published

2019

32. Kinase activity of SOBIR1 and BAK1 is required for immune signalling.

Author

Burgh, Aranka M., Postma, Jelle, Robatzek, Silke, and Joosten, Matthieu H. A. J.

Subjects

*KINASES, *LEUCINE, *PHOSPHORYLATION, *CLADOSPORIUM fulvum, *ARABIDOPSIS thaliana

Abstract

Summary: Leucine‐rich repeat‐receptor‐like proteins (LRR‐RLPs) and LRR‐receptor‐like kinases (LRR‐RLKs) trigger immune signalling to promote plant resistance against pathogens. LRR‐RLPs lack an intracellular kinase domain, and several of these receptors have been shown to constitutively interact with the LRR‐RLK Suppressor of BIR1‐1/EVERSHED (SOBIR1/EVR) to form signalling‐competent receptor complexes. Ligand perception by LRR‐RLPs initiates recruitment of the co‐receptor BRI1‐Associated Kinase 1/Somatic Embryogenesis Receptor Kinase 3 (BAK1/SERK3) to the LRR‐RLP/SOBIR1 complex, thereby activating LRR‐RLP‐mediated immunity. We employed phosphorylation analysis of in planta‐produced proteins, live cell imaging, gene silencing and co‐immunoprecipitation to investigate the roles of SOBIR1 and BAK1 in immune signalling. We show that Arabidopsis thaliana (At) SOBIR1, which constitutively activates immune responses when overexpressed in planta, is highly phosphorylated. Moreover, in addition to the kinase activity of SOBIR1 itself, kinase‐active BAK1 is essential for AtSOBIR1‐induced constitutive immunity and for the phosphorylation of AtSOBIR1. Furthermore, the defence response triggered by the tomato LRR‐RLP Cf‐4 on perception of Avr4 from the extracellular pathogenic fungus Cladosporium fulvum is dependent on kinase‐active BAK1. We argue that, in addition to the trans‐autophosphorylation of SOBIR1, it is likely that SOBIR1 and BAK1 transphosphorylate, and thereby activate the receptor complex. The signalling‐competent cell surface receptor complex subsequently activates downstream cytoplasmic signalling partners to initiate RLP‐mediated immunity. [ABSTRACT FROM AUTHOR]

Published

2019

33. Assignment of a dubious gene cluster to melanin biosynthesis in the tomato fungal pathogen Cladosporium fulvum.

Author

Griffiths, Scott A., Cox, Russell J., Overdijk, Elysa J. R., Mesarich, Carl H., Saccomanno, Benedetta, Lazarus, Colin M., de Wit, Pierre J. G. M., and Collemare, Jérôme

Subjects

*GENE clusters, *MELANOGENESIS, *CLADOSPORIUM fulvum, *PHYTOTOXINS, *PLANT pigments, *PHYTOPATHOGENIC fungi

Abstract

Pigments and phytotoxins are crucial for the survival and spread of plant pathogenic fungi. The genome of the tomato biotrophic fungal pathogen Cladosporium fulvum contains a predicted gene cluster (CfPKS1, CfPRF1, CfRDT1 and CfTSF1) that is syntenic with the characterized elsinochrome toxin gene cluster in the citrus pathogen Elsinoë fawcettii. However, a previous phylogenetic analysis suggested that CfPks1 might instead be involved in pigment production. Here, we report the characterization of the CfPKS1 gene cluster to resolve this ambiguity. Activation of the regulator CfTSF1 specifically induced the expression of CfPKS1 and CfRDT1, but not of CfPRF1. These co-regulated genes that define the CfPKS1 gene cluster are orthologous to genes involved in 1,3-dihydroxynaphthalene (DHN) melanin biosynthesis in other fungi. Heterologous expression of CfPKS1 in Aspergillus oryzae yielded 1,3,6,8-tetrahydroxynaphthalene, a typical precursor of DHN melanin. Δcfpks1 deletion mutants showed similar altered pigmentation to wild type treated with DHN melanin inhibitors. These mutants remained virulent on tomato, showing this gene cluster is not involved in pathogenicity. Altogether, our results showed that the CfPKS1 gene cluster is involved in the production of DHN melanin and suggests that elsinochrome production in E. fawcettii likely involves another gene cluster. [ABSTRACT FROM AUTHOR]

Published

2018

34. Evaluation of the potential biocontrol activity of Dicyma pulvinata against Cladosporium fulvum, the causal agent of tomato leaf mould.

Author

Iida, Y., Ikeda, K., Sakai, H., Nakagawa, H., Nishi, O., and Higashi, Y.

Subjects

*CLADOSPORIUM fulvum, *TOMATO diseases & pests, *CULTIVARS, *PHYSIOLOGICAL control systems, *MICROBIAL virulence

Abstract

Cladosporium fulvum, the causal fungus of leaf mould of tomato, is present in most countries that grow tomatoes, and is an economic problem, particularly in Japan. The diverse, complex race structure of C. fulvum in Japan enables the fungus to overcome all resistant commercial cultivars. It was noted that C. fulvum lesions on tomato leaves in the greenhouse were overgrown with white mycelia and that leaf mould did not spread further. Two isolates from the white mycelia, designated 414‐2 and 414‐3, were identified from morphological and phylogenetic analyses as the mycoparasite Dicyma pulvinata. Scanning electron microscopy of inoculated leaves showed the mycoparasite had coiled around C. fulvum hyphae around stomata. Microscopic analysis revealed that C. fulvum, engineered to express green fluorescent protein, died when entwined by the isolates only when cocultured in the absence of a carbon source. These results indicate that these isolates are mycoparasitic fungi that absorbed nutrients from C. fulvum. Two isolates and four strains were evaluated according to their abilities to control disease caused by C. fulvum, form conidia and produce an antifungal agent. Isolate 414‐3 parasitized hyphae of C. fulvum on plants in the greenhouse and inhibited leaf mould caused by all physiological races that cause problems for tomato production in Japan. This indigenous isolate of D. pulvinata may thus serve to control the foliar pathogen C. fulvum. [ABSTRACT FROM AUTHOR]

Published

2018

35. 13 The Biotrophy–Necrotrophy Switch in Fungal Pathogenesis

Author

Horbach, Ralf, Deising, Holger B., Esser, Karl, Series editor, and Kempken, Frank, editor

Published

2013

36. Creation of new tomato forms with fungal disease resistance genes based on marker selection

Author

M. V. Maslova, I. N. Shamshin, E. V. Grosheva, and R. M. Samoilova

Subjects

Genetics, Resistance (ecology), food and beverages, Agriculture, tomato, Biology, Fungal disease, fusarium oxysporum, dna-marker, cladosporium fulvum, Marker selection, marker-mediated selection, Gene

Abstract

Relevance. The presented studies are aimed at obtaining new forms of tomato with a complex of genes for resistance to fungal diseases in combination with a standard type of bush and dark coloring of fruits based on marker-mediated selection.Methodology. The biological objects of the study are varieties and hybrid forms of tomato from the collection of the Michurinsky SAU. Molecular genetic analysis was performed using the following methods. DNA extraction was carried out from young leaves using a kit for isolation of NC Sample NC manufactured by Agrodiagnostika LLC according to the manufacturer's protocol. Fermentas production kits were used for PCR. Identification of the cladosporosis resistance gene was Cf-19 performed using the DNA marker R7. The presence of a fusarious wilting resistance gene was determined by a I-2/5 marker. The amplification results were visualized by agarose gel electrophoresis.Results. During the research, a collection of varieties and hybrid forms of tomato of the Michurinsky GAU was analyzed in order to identify genes for resistance to cladosporiosis Cf-19 and fusarium wilt I-2. A total of 52 genotypes were analyzed. It was found that most samples (41 samples) are characterized by a heterozygous state of the Cf-19 gene. All indeterminant and semi-determinant forms had both alleles. Of the 23 determinant forms presented in the collection, 10 had only one allele corresponding to recessive homozygote. Among all analyzed tomato genotypes, no dominant homozygous forms were noted. The study of the collection revealed several alleles of the I-2 gene. In total, four fragments corresponding to various alleles were amplified. A total of 50 resistant genotypes have been identified in the collection. Two alleys of the I-2 gene (633/693 bp) were identified in 42 tomato samples. Four varieties are homozygous in one allele (633 bp), which determines resistance. Three varieties have a second resistance allele (566 bp). One genotype has only an allele defining susceptibility (693 bp). On the basis of molecular analysis, as well as an assessment of the type of bush and fetal color, initial forms were selected with subsequent hybridization. 67 hybrid tomato plants were obtained. Evaluation of the presence of resistance genes showed that most of the resulting hybrids are resistant to cladosporiosis and fuzariosis. This is due to the presence of dominant alleles of Cf-19 and I-2 genes in a heterozygous state. Among the resulting hybrids, plants with a bark type of bush were identified. A total of 13 such plants were obtained.Conclusion. Thus, the work carried out allowed to obtain hybrid forms of tomato combine the signs of resistance to two pathogens of fungal diseases and the stem type of the bush. These forms are planned to be used in further selection work.

Published

2021

37. Structure of the Cladosporium fulvum Avr4 effector in complex with (GlcNAc)6 reveals the ligand-binding mechanism and uncouples its intrinsic function from recognition by the Cf-4 resistance protein.

Author

Hurlburt, Nicholas K., Chen, Li-Hung, Stergiopoulos, Ioannis, and Fisher, Andrew J.

Subjects

*DNA structure, *CLADOSPORIUM fulvum, *LIGAND binding (Biochemistry), *PARASITISM, *CHITINASE, *PROTEOLYSIS, *PLANTS

Abstract

Effectors are microbial-derived secreted proteins with an essential function in modulating host immunity during infections. CfAvr4, an effector protein from the tomato pathogen Cladosporium fulvum and the founding member of a fungal effector family, promotes parasitism through binding fungal chitin and protecting it from chitinases. Binding of Avr4 to chitin is mediated by a carbohydrate-binding module of family 14 (CBM14), an abundant CBM across all domains of life. To date, the structural basis of chitin-binding by Avr4 effector proteins and of recognition by the cognate Cf-4 plant immune receptor are still poorly understood. Using X-ray crystallography, we solved the crystal structure of CfAvr4 in complex with chitohexaose [(GlcNAc)6] at 1.95Å resolution. This is the first co-crystal structure of a CBM14 protein together with its ligand that further reveals the molecular mechanism of (GlcNAc)6 binding by Avr4 effector proteins and CBM14 family members in general. The structure showed that two molecules of CfAvr4 interact through the ligand and form a three-dimensional molecular sandwich that encapsulates two (GlcNAc)6 molecules within the dimeric assembly. Contrary to previous assumptions made with other CBM14 members, the chitohexaose-binding domain (ChBD) extends to the entire length of CfAvr4 with the reducing end of (GlcNAc)6 positioned near the N-terminus and the non-reducing end at the C-terminus. Site-directed mutagenesis of residues interacting with (GlcNAc)6 enabled the elucidation of the precise topography and amino acid composition of Avr4’s ChBD and further showed that these residues do not individually mediate the recognition of CfAvr4 by the Cf-4 immune receptor. Instead, the studies highlighted the dependency of Cf-4-mediated recognition on CfAvr4’s stability and resistance against proteolysis in the leaf apoplast, and provided the evidence for structurally separating intrinsic function from immune receptor recognition in this effector family. [ABSTRACT FROM AUTHOR]

Published

2018

38. Silencing of the SAMDC gene decreases resistance of tomato to Cladosporium fulvum.

Author

Zhao, Tingting, Yang, Huanhuan, Jiang, Jingbin, Liu, Guan, Zhang, He, Xiao, Di., Chen, Xiuling, Li, Jingfu, and Xu, Xiangyang

Subjects

*ADENOSYLMETHIONINE decarboxylase, *CLADOSPORIUM fulvum, *POLYAMINES, *BIOSYNTHESIS, *CHLOROSIS

Abstract

S-adenosylmethionine decarboxylase (SAMDC) is a key enzyme in polyamine (PA) biosynthesis, and overexpression of SAMDC in plants can increase the PA level and enhance tolerance to multiple abiotic and biotic stresses. In our previous study, this gene was significantly up-regulated during Cladosporium fulvum resistance gene ( Cf )/ Avirulence ( Avr ) interaction in tomato. In this study, to further understand the role that the SAMDC gene plays in Cf / Avr interaction, the virus-induced gene silencing (VIGS) method was applied to down-regulate SAMDC expression in CGN18423, a line carrying the Cf-19 gene for resistance to C. fulvum . Then, these plants were infected with C. fulvum to analyze changes in resistance. The silencing of SAMDC was confirmed by quantitative real-time PCR (qRT-PCR) analysis and PA quantification. The resistance levels of SAMDC -silenced plants were lower than those of untreated CGN18423 plants. No visible signs of infection were observed on the leaves of untreated CGN18423 plants, while some small chlorotic spots were observed on parts of the leaf margins of SAMDC -silenced plants, and hyphae inside the chlorotic spots were observed late in the hypersensitive response (HR) process. These changes suggested that silencing of the SAMDC gene affected the process of Cf/Avr interaction and decreased the resistance of CGN18423 to C. fulvum . [ABSTRACT FROM AUTHOR]

Published

2018

39. Physiological and RNA-seq analyses provide insights into the response mechanism of the Cf-10-mediated resistance to Cladosporium fulvum infection in tomato.

Author

Liu, Guan, Liu, Junfang, Zhang, Chunli, You, Xiaoqing, Zhao, Tingting, Jiang, Jingbin, Chen, Xiuling, Zhang, He, Yang, Huanhuan, Zhang, Dongye, Du, Chong, Li, Jingfu, and Xu, Xiangyang

Abstract

Leaf mold, caused by the fungus Cladosporium fulvum, is one of the most common diseases affecting tomatoes worldwide. Cf series genes including Cf-2, Cf-4, Cf-5, Cf-9 and Cf-10 play very important roles in resisting tomato leaf mold. Understanding the molecular mechanism of Cf gene-mediated resistance is thus the key to facilitating genetic engineering of resistance to C. fulvum infection. Progress has been made in elucidating two Cf genes, Cf -19 and Cf -12, and how they mediate resistance responses to C. fulvum infection in tomato. However, the mechanism of the Cf-10-mediated resistance response is still unclear. In the present study, RNA-seq was used to analyze changes in the transcriptome at different stages of C. fulvum infection. A total of 2,242 differentially expressed genes (DEGs) responsive to C. fulvum between 0 and 16 days post infection (dpi) were identified, including 1,501 upregulated and 741 downregulated genes. The majority of DEGs were associated with defense-signaling pathways including oxidation-reduction processes, oxidoreductase activity and plant hormone signal transduction. Four DEGs associated with plant-pathogen interaction were uniquely activated in Cf-10 tomato and validated by qRT-PCR. In addition, physiological indicators including reactive oxygen species (ROS), superoxide dismutase (SOD), catalase (CAT) and peroxidase (POD) were measured at 0-21 dpi, and hormone expression [Jasmonic acid (JA) and salicylic acid (SA)] was estimated at 0 and 16 dpi to elucidate the mechanism of the Cf-10-mediated resistance response. C. fulvum infection induced the activities of POD, CAT and SOD, and decreased ROS levels. JA was determined to participate in the resistance response to C. fulvum during the initial infection period. The results of this study provide accountable evidence for the physiological and transcriptional regulation of the Cf-10-mediated resistance response to C. fulvum infection, facilitating further understanding of the molecular mechanism of Cf-10-mediated resistance to C. fulvum infection. [ABSTRACT FROM AUTHOR]

Published

2018

40. Down‐regulation of cladofulvin biosynthesis is required for biotrophic growth of <italic>Cladosporium fulvum</italic> on tomato.

Author

Griffiths, Scott, Saccomanno, Benedetta, de Wit, Pierre J. G. M., Mesarich, Carl H., Overdijk, Elysa J. R., and Collemare, Jérôme

Subjects

*CLADOSPORIUM fulvum, *METABOLITES, *ANTHRAQUINONES, *TOMATO diseases & pests, *ABIOTIC stress, *MYCOTOXINS

Abstract

Summary: Fungal biotrophy is associated with a reduced capacity to produce potentially toxic secondary metabolites (SMs). Yet, the genome of the biotrophic plant pathogen Cladosporium fulvum contains many SM biosynthetic gene clusters, with several related to toxin production. These gene clusters are, however, poorly expressed during the colonization of tomato. The sole detectable SM produced by C. fulvum during in vitro growth is the anthraquinone cladofulvin. Although this pigment is not detected in infected leaves, cladofulvin biosynthetic genes are expressed throughout the pre‐penetration phase and during conidiation at the end of the infection cycle, but are repressed during the biotrophic phase of tomato colonization. It has been suggested that the tight regulation of SM gene clusters is required for C. fulvum to behave as a biotrophic pathogen, whilst retaining potential fitness determinants for growth and survival outside its host. To address this hypothesis, we analysed the disease symptoms caused by mutant C. fulvum strains that do not produce or over‐produce cladofulvin during the biotrophic growth phase. Non‐producers infected tomato in a similar manner to the wild‐type, suggesting that cladofulvin is not a virulence factor. In contrast, the cladofulvin over‐producers caused strong necrosis and desiccation of tomato leaves, which, in turn, arrested conidiation. Consistent with the role of pigments in survival against abiotic stresses, cladofulvin protects conidia against UV light and low‐temperature stress. Overall, this study demonstrates that the repression of cladofulvin production is required for C. fulvum to sustain its biotrophic lifestyle in tomato, whereas its production is important for survival outside its host. [ABSTRACT FROM AUTHOR]

Published

2018

41. Arbuscular mycorrhiza-mediated resistance in tomato against Cladosporium fulvum-induced mould disease.

Author

Wang, Yue‐Yan, Yin, Qiu‐Shuang, Qu, Yue, Li, Guang‐Zhe, and Hao, Lin

Subjects

*VESICULAR-arbuscular mycorrhizas, *FUNGAL diseases of plants, *PLANT-fungus relationships, *CLADOSPORIUM fulvum, *PLANT-soil relationships

Abstract

Root colonization with arbuscular mycorrhizal fungi ( AMF) enhances plant resistance particularly against soil-borne pathogenic fungi. In this study, mycorrhizal inoculation with Glomus mosseae ( Gm) significantly alleviated tomato mould disease caused by the air-borne fungal pathogen, Cladosporium fulvum ( Cf). The disease index ( DI) in local leaves (receiving pathogen inoculation) and systemic leaves (just above the local leaf without pathogen inoculation) was 36.4% and 11.7% in mycorrhizal plants, respectively, whereas DI was 59.6% and 36.4% in the corresponding leaves of AMF non-inoculated plants, after 50 days of Gm inoculation, corresponding to 15 days after Cf inoculation by leaf infiltration. Foliar spray inoculation with Cf also revealed that AMF pre-inoculated plants had a higher resistance against subsequent pathogen infection, where the DI was 41.3% in mycorrhizal plants vs. 64.4% in AMF non-inoculated plants. AMF-inoculated plants showed significantly higher fresh and dry weight than non-inoculated plants under both control (without pathogen) and pathogen treatments. AMF-inoculated plants exhibited significant increases in activities of superoxide dismutase and peroxidase, along with decreases in levels of H2O2 and malondialdehyde, compared with non-inoculated plants after pathogen inoculation. AMF inoculation led to increases in total chlorophyll contents and net photosynthesis rate as compared with non-inoculated plants under control and pathogen infection. Pathogen infection on AMF non-inoculated plants led to decreases in chlorophyll fluorescence parameters. However, pathogen infection did not affect these parameters in mycorrhizal plants. Taken together, these results indicate that AMF colonization may play an important role in plant resistance against air-borne pathogen infection by maintaining redox poise and photosynthetic activity. [ABSTRACT FROM AUTHOR]

Published

2018

42. The Secretome of Plant-Associated Fungi and Oomycetes

Author

Kamoun, Sophien, Esser, K., editor, and Deising, Holger B., editor

Published

2009

43. Gene for Gene Models and Beyond: the Cladosporium fulvum-Tomato Pathosystem

Author

De Wit, Pierre J. G. M., Joosten, Matthieu H. A. J., Thomma, Bart H. P. J., Stergiopoulos, Ioannis, Esser, K., editor, and Deising, Holger B., editor

Published

2009

44. Beurteilung ausgewählter Tomatensorten gegenüber der Samtfleckenkrankheit (Cladosporium fulvum)

Author

Odermatt, Silvia and Odermatt, Silvia

Abstract

Bei der Samtfleckenkrankheit handelt es sich um einen Befall, der durch den Pilz Cladosporium fulvum (Syn. Passalora fulva, Fulvia vulva) hervorgerufen wird. Dies ist ein Blattkrankheitserreger, der ausschliesslich die Gattung Lycopersicon ssp. befällt. Besonders in gedeckten Anbauverhältnissen, welche hohe Luftfeuchtigkeits- und Temperaturwerte hervorrufen, führt der Erreger immer häufiger zu grossen Ertragsausfällen. Als grundlegende Bekämpfungsmassnahmen gelten eine geregelte Kulturführung und der Anbau resistenter Sorten. Erste Resistenzzüchtungen wurden bereits im Jahr 1930 durchgeführt. Dabei wurden die von wilden Tomatensorten stammende Resistenzgene in ausgewählte Sorten eingekreuzt. Die hervorgerufene Resistenz beruht auf einer hypersensitiven Abwehrreaktion (HR), welche in der Regel vollständig wirkt. Auf natürliche Weise kommt es jedoch immer wieder zu Pilzmutationen und Bildung neuer Pilzrassen, was zur Überwindung der monogenen Resistenzen führt. Diese Art von Resistenz kann daher nicht als langfristig stabil bezeichnet werden. Als neuer Ansatz könnte die Einkreuzung des alternativen Cf-Ecp2-Resistenzgens oder die Einkreuzung mehrerer Resistenzgene je Sorte in Betracht gezogen werde werden. Polygene (bzw. partielle) Resistenzen gelten als stabiler, da ein Resistenzdurchbruch nur ein geringer Fitnessvorteil für den Erreger bedeutet. Über die Wirkungsweise dieser Abwehrreaktion gibt es zum heutigen Zeitpunkt kaum Literatur. Man weisss jedoch, dass eine befallsreduzierende Wirkung hervor-gerufen werden kann. In dieser Arbeit wurden 19 ausgewählte Tomatensorten unter praxisüblichen biologischen Bedingungen angebaut und Beurteilungen in Bezug auf den Samtfleckenbefall unterzogen. Zwischen den Sorten und den jeweiligen Resistenzarten konnten Unterschiede bezüglich des Be-falls festgestellt werden. Die Versuchsresultate unterstützen die die Aktualität dieses Züchtungsgebietes. Um das mögliche Potential der partiellen Resistenzzüchtung erfassen zu können, sind, The leaf mould/leaf mold disease is an infestation caused by the fungus Cladosporium fulvum (syn. Passalora fulva, Fulvia vulva). This is a leaf disease pathogen that exclusively infects the genus Lycopersicon ssp. Especially in covered cultivation conditions, which cause high humidity and temperature values, the pathogen increasingly leads to large yield losses. The basic control measures are regulated crop management and the cultivation of resistant varieties. The first resistance breeding was carried out as early as 1930. Resistance genes from wild tomato varieties were crossed into selected varieties. The resulting resistance is based on a hypersensitive defence reaction (HR), which is usually completely effective. However, fungal mutations and the formation of new fungal races occur naturally, which leads to the overcoming of monogenic resistance. This type of resistance can therefore not be described as stable in the long term. As a new approach, the crossing of the alternative Cf-Ecp2 resistance gene or the crossing of several resistance genes per variety could be considered. Polygenic (or partial) resistance is more stable, as a resistance breakthrough means only a small fitness advantage for the pathogen. At present, there is little literature on the mode of action of this defence reaction. However, it is known that an infestation-reducing effect can be induced. In this study, 19 selected tomato varieties were cultivated under standard organic conditions and evaluated about velvet blotch infestation. Differences in infestation were found between the varieties and the respective resistance types. The trial results support the topicality of this breeding area. To be able to assess the potential of partial resistance breeding, further scientific investigations are necessary, which will continue over several breeding generations.

Published

2022

45. 番茄与叶霉菌互作过程中 WRKY 转录因子的生物信息学和功能分析.

Author

王秋颖, 薛东齐, 陈秀玲, 李景富, and 王傲雪

Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

46. تأثير خلات حمض الصفصاف في إنبات أبواغ بعض الفطور الممرضة للنبات، وتقدير كفاءته في مكافحة مرض تعفن أوراق البندورة/الطماطم المتسبب عن الفطر .Cooke fulvum Cladosporium تحت ظروف البيت الزجاجي

Author

المطرود, لينا, البغدادي, رغدة, المصري عرفة, صفية, الغزاوي, عبد اللطيف, الشعبي, صلاح, and أبو الفضل, تيسير

Abstract

Copyright of Arab Journal of Plant Protection is the property of Arab Society for Plant Protection and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

47. Transcriptome Analysis of the Cf-12-Mediated Resistance Response to Cladosporium fulvum in Tomato.

Author

Dong-Qi Xue, Xiu-Ling Chen, Hong Zhang, Xin-Feng Chai, Jing-Bin Jiang, Xiang-Yang Xu, and Jing-Fu Li

Subjects

CLADOSPORIUM fulvum, PLANT resistance to viruses, TOMATO diseases & pests

Abstract

Cf-12 is an effective gene for resisting tomato leaf mold disease caused by Cladosporium fulvum (C. fulvum). Unlike many other Cf genes such as Cf-2, Cf-4, Cf-5, and Cf-9, no physiological races of C. fulvum that are virulent to Cf-12 carrying plant lines have been identified. In order to better understand the molecular mechanism of Cf-12 gene resistance response, RNA-Seq was used to analyze the transcriptome changes at three different stages of C. fulvum infection (0, 4, and 8 days post infection [dpi]). A total of 9100 differentially expressed genes (DEGs) between 4 and 0 dpi, 8643 DEGs between 8 and 0 dpi and 2547 DEGs between 8 and 4 dpi were identified. In addition, we found that 736 DEGs shared among the above three groups, suggesting the presence of a common core of DEGs in response to C. fulvum infection. These DEGs were significantly enriched in defense-signaling pathways such as the calcium dependent protein kinases pathway and the jasmonic acid signaling pathway. Additionally, we found that many transcription factor genes were among the DEGs, indicating that transcription factors play an important role in C. fulvum defense response. Our study provides new insight on the molecular mechanism of Cf resistance to C. fulvum, especially the unique features of Cf-12 in responding to C. fulvum infection. [ABSTRACT FROM AUTHOR]

Published

2017

48. Mapping of the Cladosporium fulvum resistance gene Cf-16 , a major gene involved in leaf mold disease in tomato.

Author

Zhang D, Li H, Liu G, Xie L, Feng G, and Xu X

Abstract

Tomato ( Solanum lycopersicum ) is widely cultivated and consumed worldwide. Tomato leaf mold, caused by Cladosporium fulvum , is one of the most devastating diseases in tomato production. At present, some tomato leaf mold resistance ( Cf series) genes used in production gradually lose resistance due to the continuous and rapid differentiation of C. fulvum physiological races. The Cf-16 gene derived from the "Ontario7816" tomato cultivar has shown effective resistance in field trials for many years, but few studies have reported on the mapping of the Cf-16 gene, which has not been cloned, limiting its utilization in tomato breeding. Here, we mapped Cf-16 using a novel comprehensive strategy including bulk segregation analysis (BSA), genome resequencing and SSR molecular markers. A genetic analysis revealed that Cf-16 resistance in "Ontario7816" is controlled by one major dominant locus. The Cf-16 gene was mapped in a region of 2.6 cM at chromosome 6 between two markers, namely, TGS447 and TES312, by using an F 2 population from a cross between the resistant cultivar "Ontario7816" and susceptible line "Moneymaker." Two nucleotide-binding-site-leucine-rich repeat (NBS-LRR) resistance genes, namely, XM&#95;004240667.3 and XM&#95;010323727.1, were identified in this interval. They are strong candidates for the Cf-16 gene. The mapping of Cf-16 may speed up its utilization for breeding resistant tomato varieties and represents an important step forward in our understanding of the mechanism underlying resistance to tomato leaf mold., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Zhang, Li, Liu, Xie, Feng and Xu.)

Published

2023

49. Knocking down expression of the auxin-amidohydrolase IAR3 alters defense responses in Solanaceae family plants.

Author

D’Ippolito, Sebastian, Vankova, Radomira, Joosten, Matthieu H.A.J., Casalongué, Claudia A., and Fiol, Diego F.

Subjects

*SOLANACEAE, *GENE expression in plants, *AMIDASES, *HOMEOSTASIS, *AMINO acid sequence

Abstract

In plants, indole-3-acetic acid (IAA) amido hydrolases (AHs) participate in auxin homeostasis by releasing free IAA from IAA-amino acid conjugates. We investigated the role of IAR3, a member of the IAA amido hydrolase family, in the response of Solanaceous plants challenged by biotrophic and hemi-biotrophic pathogens. By means of genome inspection and phylogenic analysis we firstly identified IAA-AH sequences and putative IAR3 orthologs in Nicotiana benthamiana , tomato and potato. We evaluated the involvement of IAR3 genes in defense responses by using virus-induced gene silencing. We observed that N. benthamiana and tomato plants with knocked-down expression of IAR3 genes contained lower levels of free IAA and presented altered responses to pathogen attack, including enhanced basal defenses and higher tolerance to infection in susceptible plants. We showed that IAR3 genes are consistently up-regulated in N. benthamiana and tomato upon inoculation with Phytophthora infestans and Cladosporium fulvum respectively. However, IAR3 expression decreased significantly when hypersensitive response was triggered in transgenic tomato plants coexpressing the Cf-4 resistance gene and the avirulence factor Avr4 . Altogether, our results indicate that changes in IAR3 expression lead to alteration in auxin homeostasis that ultimately affects plant defense responses. [ABSTRACT FROM AUTHOR]

Published

2016

50. Identification of race 2.5 of leaf mold ( Passalora fulva, syn. Cladosporium fulvum) on tomato.

Author

Altin, Nedim

Subjects

*CLADOSPORIUM fulvum, *TOMATO diseases & pests

Abstract

Leaf mold caused by the fungus Passalora fulva has been a serious disease in greenhouse tomatoes in Turkey. This study was conducted to determine races of tomato leaf mold that caused by the P. fulva. Single-spore cultures of twenty-two isolates were obtained from infected samples that are collected from different greenhouses which product tomato in Fethiye and Ortaca. According to the morphological characters, all of the 22 isolates were identified as P. fulva. All isolates of P. fulva were highly pathogenic to the susceptible tomato cultivars (Moneymaker (MM)-Cf-0). These isolates were tested for determination of races of P. fulva on a set of tomato differentials (MM-Cf-0, MM-Cf-2, MM-Cf-4, MM-Cf-5, MM-Cf-9) with different Cf resistance genes. To our knowledge, according to the result of this study, physiological races of this pathogen were identified as race 2.5 for the first time in Ortaca and Fethiye districts of Muğla province. [ABSTRACT FROM AUTHOR]

Published

2016