Mapping and Functional Characterization of the Tomato I-7 Gene for Fusarium Wilt Resistance PDF Download
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Author: Yvonne Gonzalez-Cendales Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The I-7 gene, which confers resistance to Fol race 3, was introgressed from Solanum pennellii and recently recognised as a new resistance gene distinct from the I-3 gene. Since the chromosomal location of I-7 was unknown, no markers were available for the marker-assisted breeding of I-7 genotypes. Therefore, one aim of this project was to identify the chromosomal location of the I-7 gene and develop reliable PCR-based markers suitable for the marker-assisted breeding of I-7. Further aims were to identify and characterise the I-7 gene, and examine the resistance phenotype conferred by I-7. GFP-tagged derivatives of Fol race 3 were generated (Chapter 2) to observe the infection process and determine the timing and location of resistance conferred by I-7. Previously, using a gene replacement strategy, the promoter from the Fol Avr3 effector gene was used to drive GFP expression and show that the Avr3 promoter was only expressed in fungal hyphae growing inside the plant root (van der Does et al., 2008a). Unfortunately, Avr3 replacement reduces pathogenicity, so new transformants were generated with ectopic insertions carrying a Avr3 promoter:GFP reporter construct. Microscopic analysis of tomato roots challenged with these transformants showed that fluorescent hyphae could be imaged successfully, but unfortunately these transformants also showed reduced virulence. After an intensive but unproductive marker-based search for the S. pennellii introgression carrying I-7 (Chapter 3), an RNA-seq experiment was conducted to identify Single Nucleotide Polymorphisms (SNPs) in root transcripts derived from genes in the introgressed region (Chapter 4). Sequencing of root transcripts from the tomato cultivars Tristar (carrying I-7) and M82 (lacking I-7) enabled detection of a large number of SNPs. A plot of SNP frequency against gene position revealed a higher frequency of SNPs in 18 transcripts encoded by a cluster of genes on chromosome 8. CAPS markers based on these SNPs showed strong linkage with I-7. An orthologue of Solyc08g077740 was identified as a candidate for I-7. Transcriptome sequencing was also used to identify genes responsive to Fol race 3 infection in Tristar (Chapter 4). Analysis of the RNA-seq data revealed 38 genes that were significantly upregulated in Tristar but not the susceptible cultivar M82, including a number of genes reported to have a role in plant defence. Alleles of the I-7 candidate gene were cloned and sequenced from I-7 resistant (Tristar) and susceptible (M82) cultivars of tomato (Chapter 5). Transgenic plants expressing these alleles were generated from susceptible tomato lines and tested for resistance to Fol. The Tristar transgene but not the M82 transgene conferred resistance to Fol race 3, showing that the S. pennellii allele of Solyc08g077740 is I-7. I-7 was also found to confer resistance to Fol races 1 and 2. Based on predicted amino acid sequence, I-7 possesses a domain structure typical of extracellular leucine-rich repeat-receptor-like proteins. Further work to characterise I-7 (Chapter 6) found that I-7 resistance is dependent on the downstream signalling gene EDS1, and that I-7 confers resistance to Fol race 3 through recognition of an effector protein other than Avr3.
Author: Yvonne Gonzalez-Cendales Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The I-7 gene, which confers resistance to Fol race 3, was introgressed from Solanum pennellii and recently recognised as a new resistance gene distinct from the I-3 gene. Since the chromosomal location of I-7 was unknown, no markers were available for the marker-assisted breeding of I-7 genotypes. Therefore, one aim of this project was to identify the chromosomal location of the I-7 gene and develop reliable PCR-based markers suitable for the marker-assisted breeding of I-7. Further aims were to identify and characterise the I-7 gene, and examine the resistance phenotype conferred by I-7. GFP-tagged derivatives of Fol race 3 were generated (Chapter 2) to observe the infection process and determine the timing and location of resistance conferred by I-7. Previously, using a gene replacement strategy, the promoter from the Fol Avr3 effector gene was used to drive GFP expression and show that the Avr3 promoter was only expressed in fungal hyphae growing inside the plant root (van der Does et al., 2008a). Unfortunately, Avr3 replacement reduces pathogenicity, so new transformants were generated with ectopic insertions carrying a Avr3 promoter:GFP reporter construct. Microscopic analysis of tomato roots challenged with these transformants showed that fluorescent hyphae could be imaged successfully, but unfortunately these transformants also showed reduced virulence. After an intensive but unproductive marker-based search for the S. pennellii introgression carrying I-7 (Chapter 3), an RNA-seq experiment was conducted to identify Single Nucleotide Polymorphisms (SNPs) in root transcripts derived from genes in the introgressed region (Chapter 4). Sequencing of root transcripts from the tomato cultivars Tristar (carrying I-7) and M82 (lacking I-7) enabled detection of a large number of SNPs. A plot of SNP frequency against gene position revealed a higher frequency of SNPs in 18 transcripts encoded by a cluster of genes on chromosome 8. CAPS markers based on these SNPs showed strong linkage with I-7. An orthologue of Solyc08g077740 was identified as a candidate for I-7. Transcriptome sequencing was also used to identify genes responsive to Fol race 3 infection in Tristar (Chapter 4). Analysis of the RNA-seq data revealed 38 genes that were significantly upregulated in Tristar but not the susceptible cultivar M82, including a number of genes reported to have a role in plant defence. Alleles of the I-7 candidate gene were cloned and sequenced from I-7 resistant (Tristar) and susceptible (M82) cultivars of tomato (Chapter 5). Transgenic plants expressing these alleles were generated from susceptible tomato lines and tested for resistance to Fol. The Tristar transgene but not the M82 transgene conferred resistance to Fol race 3, showing that the S. pennellii allele of Solyc08g077740 is I-7. I-7 was also found to confer resistance to Fol races 1 and 2. Based on predicted amino acid sequence, I-7 possesses a domain structure typical of extracellular leucine-rich repeat-receptor-like proteins. Further work to characterise I-7 (Chapter 6) found that I-7 resistance is dependent on the downstream signalling gene EDS1, and that I-7 confers resistance to Fol race 3 through recognition of an effector protein other than Avr3.
Author: Food and Agriculture Organization of the United Nations Publisher: Food & Agriculture Org. ISBN: 9789251057179 Category : Business & Economics Languages : en Pages : 498
Book Description
A comprehensive description and assessment of the use of marker-assisted selection for increasing the rate of genetic gain in crops, livestock, forestry and fish, including the related policy, FAO's tradition of dealing with issues of importance to agricultural and economic development in a multidisciplinary and cross-sectoral manner.
Author: Randy C. Ploetz Publisher: American Phytopathological Society ISBN: Category : Science Languages : en Pages : 156
Book Description
Fusarium wilt of banana: some history and current status of the disease; Importante of fusarium wilt in different banana-growing regions; Taxonomy of fungi in the genus fusarium with emphasis on fusarium oxysporum; Genetic exchange within sexual and asexual populations of the genus fusarium; Molecular genetics of plant pathogenic fusarium oxysporum; Using karyotype variability to investigate the origins and relatednes of isolates of fusarium oxysporum f. sp. cubense; Population biology of fusarium oxysporum f. sp. cubense; Biological control of diseases caused by fusarium oxysporum; Influence of mineral nutrition on fusarium wilt: a proposed mechanism involving cell water relations; Host responses to the pathogen; Banana breeding and fusarium wilt; Breeding bananas and plantains for resistance to fusariu m wilt: the track record; Somaclonal resistance in cavendish banana to fusarium wilt; Baseline tissue and cell culture studies for use in banana improvement schemes.
Author: Mathilde Causse Publisher: Springer ISBN: 3662533898 Category : Science Languages : en Pages : 260
Book Description
This book describes the strategy used for sequencing, assembling and annotating the tomato genome and presents the main characteristics of this sequence with a special focus on repeated sequences and the ancestral polyploidy events. It also includes the chloroplast and mitochondrial genomes. Tomato (Solanum lycopersicum) is a major crop plant as well as a model for fruit development, and the availability of the genome sequence has completely changed the paradigm of the species’ genetics and genomics. The book describes the numerous genetic and genomic resources available, the identified genes and quantitative trait locus (QTL) identified, as well as the strong synteny across Solanaceae species. Lastly, it discusses the consequences of the availability of a high-quality genome sequence of the cultivated species for the research community. It is a valuable resource for students and researchers interested in the genetics and genomics of tomato and Solanaceae.
Author: Gyana Ranjan Rout Publisher: Academic Press ISBN: 0323899137 Category : Science Languages : en Pages : 664
Book Description
Omics in Horticulture Crops presents a comprehensive view of germplasm diversity, genetic evolution, genomics, proteomics and transcriptomics of fruit crops (temperate, tropical and subtropical fruits, fruit nuts, berries), vegetables, tuberous crops, ornamental and floricultural crops and medicinal aromatic plants. Information covering phenomics, genetic diversity, phylogenetic studies, genome sequencing, and genome barcoding through the utilization of molecular markers plays an imperative role in the characterization and effective utilization of diverse germplasm are included in the book. This is a valuable reference for researchers and academics seeking to improve cultivar productivity through enhanced genetic diversity while also retaining optimal traits and protecting the growing environment. - Highlights perspectives, progress and promises of -omics application - Provides a systematic overview of origin, progenitor and domestication process as well as genetic insights - Includes full range of horticultural crops
Author: Hiroshi Ezura Publisher: Springer ISBN: 3662485354 Category : Science Languages : en Pages : 268
Book Description
This volume summarizes recent technological advances in the design and engineering of Solanaceae and Cucurbitaceae crops. It begins with contributions on the tomato and melon genome sequence, databases for Solanaceae and Cucurbitaceae research, DNA markers in the breeding of the two families, and mutant resources and TILLING platforms in tomato research. Subsequent chapters address the use of molecular techniques for the modification of important breeding traits, such as tomato fruit set, growth, ripening, and sugar accumulation, as well as disease and insect resistance in melons. The volume closes with chapters on genome editing using artificial nucleases as a future breeding tool, and on the development of an in silico crop design system. It offers a valuable resource for plant breeders, molecular biologists, and agronomists.
Author: Henryk Czosnek Publisher: Springer Science & Business Media ISBN: 140204769X Category : Science Languages : en Pages : 437
Book Description
Ideally suited to horticulturalists and plant virologists, this highly useful text offers a multidisciplinary view on one of the major diseases of tomato crops, the tomato yellow leaf curl disease. It deals with epidemiological aspects of the disease as well as integrated pest management in the field. Coverage discusses the efforts aimed at breeding tomato plants resistant to the virus by classical breeding, by marker-assisted breeding and by genetic engineering.
Author: Marshal Mace Publisher: Elsevier ISBN: 0323143911 Category : Technology & Engineering Languages : en Pages : 655
Book Description
Fungal Wilt Diseases of Plants focuses on wilt diseases caused by the fungal genera Verticillium, Fusarium, and Ceratocystis. Special attention is given to the interactions of physiological, biochemical, and anatomical factors, as these relate to pathogenesis and mechanisms of disease resistance. Organized into 16 chapters, this book begins with a description, in a historical perspective, of the major research themes in fungal wilt diseases. It then looks into the worldwide status of this plant disease. The three subsequent chapters describe the epidemiology and life cycle of the major fungal wilt pathogens in Fusarium, Verticillium, and Ceratocystis. This book also provides an in-depth view of the genetics and biochemistry of these pathogens; the nature of pathogenesis and the effects of wilt pathogens on host-water relations; and the sources and genetics of host resistance in field and fruit crops, vegetable crops, and shade trees. Other chapters are dedicated to the biochemistry, physiology, and the anatomical aspects of resistance and to the progress in the biological and chemical control of these pathogens. This text will be of great value to graduate students and senior research scientists in plant pathology, physiology, and biochemistry, who are specifically involved in studying wilt diseases and host-parasite interactions. It will provide them the detailed background information needed to supplement their specialized research interests.
Author: Shri Mohan Jain Publisher: Springer Science & Business Media ISBN: 9048129672 Category : Science Languages : en Pages : 759
Book Description
This book provides comprehensive information on the latest tools and techniques of molecular genetics and their applications in crop improvement. It thoroughly discusses advanced techniques used in molecular markers, QTL mapping, marker-assisted breeding, and molecular cytogenetics.
Author: Yvonne Gonzalez-Cendales
Author: Yvonne Gonzalez-Cendales
Author: Food and Agriculture Organization of the United Nations
Author: Randy C. Ploetz
Author: Mathilde Causse
Author: Gyana Ranjan Rout
Author: Hiroshi Ezura
Author: Henryk Czosnek
Author: Marshal Mace
Author: Shri Mohan Jain
Author: Jia-He Wu