Genome-wide identification and characterization of genes involved in the acylsugar pathway in tomato

Genome-wide identification and characterization of genes involved in the acylsugar pathway in tomato

Acylsugars are allelochemicals secreted by type IV trichomes in leaves and have been associated with resistance to arthropod pests in Solanaceae species. Eighty-seven putative genes were identified in Solanum lycopersicum and 77 in Solanum pennellii involved in the acylsugar pathway, including genes...

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Bibliographic Details
Published in:Plant gene Vol. 28; p. 100322
Main Authors: de Sousa Cardoso, Thaís Cunha, Caneschi, Carolina Milagres, Fernandes-Brum, Christiane Noronha, Daude, Matheus Martins, Ribeiro, Thales Henrique Cherubino, Reis, Gabriel Lasmar Dos, Lima, André Almeida, Teixeira, Terezinha Aparecida, Guimarães, Ana Clara Garcia, Gandolfi, Peterson Elizandro, de Souza Gomes, Marcos, do Amaral, Laurence Rodrigues, Gomes, Luiz Antônio Augusto, Chalfun-Júnior, Antonio, Maluf, Wilson Roberto, de Souza Gomes, Matheus
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2021
Subjects:
Acylsugar
Allelochemicals
Bioinformatics tools
Resistance to pests
Tomato
Trichomes
Trichomes
Acylsugar
Tomato
Bioinformatics tools
Allelochemicals
Resistance to pests
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Summary:Acylsugars are allelochemicals secreted by type IV trichomes in leaves and have been associated with resistance to arthropod pests in Solanaceae species. Eighty-seven putative genes were identified in Solanum lycopersicum and 77 in Solanum pennellii involved in the acylsugar pathway, including genes coding key proteins branched-chain keto acid dehydrogenase E2 (BCKD E2), 2-isopropylmalate synthase A (IPMSA), and threonine deaminase/dehydratase (TD). These putative tomato proteins displayed conservation in the conserved domains distribution and amino acids presence of catalytically active site comparing to homologous BCKD E2, IPMSA, and TD proteins from the acylsugar pathway. Phylogenetic analysis of the putative proteins BCKD E2, IPMSA, and TD showed that all putative tomato proteins grouped with their orthologs from the Solanaceae species, corroborating with the distribution of the tree of life. The BCKD E2 and the IPMSA transcripts from S. pennellii showed higher gene expression compared to S. lycopersicum transcripts, suggesting that the acylsugar pathway is more active in wild than in cultivated tomato. In addition, we checked the expression of these genes at three different times (30, 60 and 90 days after planting). The 60-day plants showed higher expression of these genes than the 30- and 90-day plants, which indicates a greater production of metabolites in the flowering stage and suggests that at this development stage the plant demands more defense against pests that may be attracted by flowers. Given the important role of the allelochemicals produced in Solanaceae, the results contribute to a better understanding of acylsugars and their processing pathways and open up opportunities to study their relationship with biotic resistance in these important species and other Solanaceae species. •Acylsugar pathway showed similar patterns between S. lycopersicum and S. pennellii.•More genes involved in acylsugar pathway were found in cultivated tomato genome.•Higher gene expression involved in acylsugar pathway was found in the wild tomato.•BCKD E2 and IPMSA genes showed upper expression in S. pennellii in all times.
ISSN:2352-4073
2352-4073
DOI:10.1016/j.plgene.2021.100322