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Sucrose synthase gene family in Brassica juncea: genomic organization, evolutionary comparisons, and expression regulation
Author(s) -
Mengyao Li,
Qi He,
Ying Huang,
Yunbo Luo,
Yong Zhang,
Yan Wang,
Yuanxiu Lin,
Yunting Zhang,
Zejing Liu,
Xiaorong Wang,
Haoru Tang
Publication year - 2021
Publication title -
peerj
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.927
H-Index - 70
ISSN - 2167-8359
DOI - 10.7717/peerj.10878
Subject(s) - brassica , gene family , biology , gene , brassica rapa , genetics , gene expression , silique , tandem exon duplication , gene expression profiling , mustard plant , abiotic stress , sucrose synthase , transcriptome , phylogenetic tree , intron , gene duplication , botany , arabidopsis thaliana , biochemistry , sucrose , mutant , invertase
Sucrose synthase (SUS) plays an important role in sucrose metabolism and plant development. The SUS gene family has been identified in many plants, however, there is no definitive study of SUS gene in Brassica juncea . In this study, 14 SUS family genes were identified and comprehensively analyzed using bioinformatics tools. The analyzed parameters included their family member characteristics, chromosomal locations, gene structures and phylogenetic as well as transcript expression profiles. Phylogenetic analysis revealed that the 14 members could be allocated into three groups: SUS I, SUS II and SUS III. Comparisons of the exon/intron structure of the mustard SUS gene indicated that its structure is highly conserved. The conserved structure is attributed to purification selection during evolution. Expansion of the SUS gene family is associated with fragment and tandem duplications of the mustard SUS gene family. Collinearity analysis among species revealed that the SUS gene family could be lost or mutated to varying degrees after the genome was doubled, or when Brassica rapa and Brassica nigra hybridized to form Brassica juncea . The expression patterns of BjuSUSs vary among different stages of mustard stem swelling. Transcriptomics revealed that the BjuSUS01-04 expression levels were the most elevated. It has been hypothesized that they play an important role in sucrose metabolism during stem development. The expression levels of some BjuSUSs were significantly up-regulated when they were treated with plant hormones. However, when subjected to abiotic stress factors, their expression levels were suppressed. This study establishes SUS gene functions during mustard stem development and stress.

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