Comparative RNA-Seq Analysis Reveals Potentially Resistance-Related Genes in Response to Bacterial Canker of Tomato

Tomato is one of the most important crops for human consumption. Its production is affected by the actinomycete subsp. ( ), one of the most devastating bacterial pathogens of this crop. Several wild tomato species represent a source of natural resistance to . Here, we contrasted the transcriptomes o...

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Bibliographic Details
Published in:Genes 2021-10, Vol.12 (11), p.1745
Main Authors: Pereyra-Bistraín, Leonardo I, Ovando-Vázquez, Cesaré, Rougon-Cardoso, Alejandra, Alpuche-Solís, Ángel G
Format: Article
Language:English
Subjects:
Ankyrins
Bacteria
Bacterial Infections - microbiology
Canker
Clavibacter
Clavibacter michiganensis michiganensis
Disease Resistance - genetics
Domestication
Flowers & plants
Gene expression
Gene Expression Regulation, Plant
Gene mapping
Gene Ontology
Genetic engineering
Genome, Plant
Genomes
Glycerol
Glycerol kinase
Host-Pathogen Interactions
Infections
Lycopersicon esculentum - genetics
Lycopersicon esculentum - metabolism
Lycopersicon esculentum - microbiology
Phenotype
Phenotypes
Plant Diseases - genetics
Plant Diseases - microbiology
Plant Proteins - genetics
Plant Proteins - metabolism
Polyphenol oxidase
RNA-Seq
Solanum arcanum
Solanum lycopersicum
Species
Tomatoes
Transcription
Transcriptome
Transcriptomes
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Summary:Tomato is one of the most important crops for human consumption. Its production is affected by the actinomycete subsp. ( ), one of the most devastating bacterial pathogens of this crop. Several wild tomato species represent a source of natural resistance to . Here, we contrasted the transcriptomes of the resistant wild tomato species LA2157 and the susceptible species cv. Ailsa Craig, during the first 24 h of challenge with . We used three analyses approaches which demonstrated to be complementary: mapping to reference genome SL3.0; semi de novo transcriptome assembly; and de novo transcriptome assembly. In a global context, transcriptional changes seem to be similar between both species, although there are some specific genes only upregulated in during interaction, suggesting that the resistance regulatory mechanism probably diverged during the domestication process. Although showed enriched functional groups related to defense, displayed a higher number of induced genes related to bacterial, oomycete, and fungal defense at the first few hours of interaction. This study revealed genes that may contribute to the resistance phenotype in the wild tomato species, such as those that encode for a polyphenol oxidase E, diacyl glycerol kinase, TOM1-like protein 6, and an ankyrin repeat-containing protein, among others. This work will contribute to a better understanding of the defense mechanism against , and the development of new control methods.
ISSN:2073-4425
2073-4425
DOI:10.3390/genes12111745