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Genome Wide Analysis of U-Box E3 Ubiquitin Ligases in Wheat (Triticum aestivum L.)

Dae Yeon Kim, Yong Jin Lee, Min Jeong Hong, Jae Ho Kim, Yong Weon Seo

2021International Journal of Molecular Sciences42 citationsDOIOpen Access PDF

Abstract

U-box E3 ligase genes play specific roles in protein degradation by post-translational modification in plant signaling pathways, developmental stages, and stress responses; however, little is known about U-box E3 genes in wheat. We identified 213 U-box E3 genes in wheat based on U-box and other functional domains in their genome sequences. The U-box E3 genes were distributed among 21 chromosomes and most showed high sequence homology with homoeologous U-box E3 genes. Synteny analysis of wheat U-box E3 genes was conducted with other plant species such as Brachypodium distachyon, barley, rice, Triricum uratu, and Aegilops tauschii. A total of 209 RNA-seq samples representing 22 tissue types, from grain, root, leaf, and spike samples across multiple time points, were analyzed for clustering of U-box E3 gene expression during developmental stages, and the genes responded differently in various tissues and developmental stages. In addition, expression analysis of U-box E3 genes under abiotic stress, including drought, heat, and both heat and drought, and cold conditions, was conducted to provide information on U-box E3 gene expression under specific stress conditions. This analysis of U-box E3 genes could provide valuable information to elucidate biological functions for a better understanding of U-box E3 genes in wheat.

Topics & Concepts

Brachypodium distachyonBiologyGeneGeneticsUbiquitin ligaseBrachypodiumSyntenyGenomeF-box proteinAegilops tauschiiMADS-boxCandidate geneSkp1Abiotic stressUbiquitinArabidopsisMutantUbiquitin and proteasome pathways14-3-3 protein interactionsPlant tissue culture and regeneration
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