Genome-Wide Identification of PR10 Family Members in Durum Wheat: Expression Profile and In Vitro Analyses of TdPR10.1 in Response to Various Stress Conditions

The functional characterization of PR10 proteins has been extensively studied in many plant species. However, little is known about the role of TdPR10 in the response of durum wheat ( Desf.) to stress. In this study, we identified members of the PR10 family, which are divided into three major subfam...

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Bibliographic Details
Published in:Plants (Basel) 2024-11, Vol.13 (22), p.3128
Main Authors: Khanfir, Emna, Zribi, Ikram, Dhouib, Hanen, Ghorbel, Mouna, Hamdi, Karama, Jrad, Olfa, Yacoubi, Inès, Brini, Faiçal
Format: Article
Language:English
Subjects:
abiotic and biotic stress
Abiotic stress
Amino acids
antifungal activity
Chromosomes
durum wheat
Evolutionary genetics
Flavonoids
Genes
Genetic aspects
genome-wide analysis
Genomes
Genomics
Gibberellins
Infections
LDH activity
Molecular weight
Pasta
Phylogenetics
Phylogeny
Plant growth
Plant species
PR10 family
Proteins
Regulatory sequences
Ribonuclease
Salinity
Triticum durum
Wheat
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Summary:The functional characterization of PR10 proteins has been extensively studied in many plant species. However, little is known about the role of TdPR10 in the response of durum wheat ( Desf.) to stress. In this study, we identified members of the PR10 family, which are divided into three major subfamilies based on phylogenetic analyses. The analysis revealed that tandem duplication was the primary driver of the expansion of the gene family. Additionally, gene structure and motif analyses showed that family genes were relatively conserved during evolution. We also identified several cis-regulatory elements in the promoter regions related not only to abiotic and biotic stress but also to phytohormonal responses. In response to abiotic stresses and phytohormones, several genes were highly expressed in the leaves and roots of durum wheat. Moreover, TdPR10.1 family members improve RNase activity, increase LDH protective activity under abiotic stress conditions, and ensure resistance to fungi in vitro. Collectively, these findings provide a basis for further functional studies of genes, which could be leveraged to enhance stress tolerance in durum wheat.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13223128