Genome-Wide Identification of the TIFY Gene Family in Brassiceae and Its Potential Association with Heavy Metal Stress in Rapeseed
文献类型: 外文期刊
第一作者: Sun, Fujun
作者: Sun, Fujun;Chen, Zhiyou;Zhang, Qianwei;Wan, Yuanyuan;Hu, Ran;Shen, Shulin;Chen, Si;Yin, Nengwen;Tang, Yunshan;Liang, Ying;Lu, Kun;Qu, Cunmin;Li, Jiana;Sun, Fujun;Hua, Wei;Liang, Ying;Lu, Kun;Qu, Cunmin;Li, Jiana;Liang, Ying;Lu, Kun;Qu, Cunmin;Li, Jiana;Sun, Fujun;Chen, Zhiyou;Zhang, Qianwei;Wan, Yuanyuan;Hu, Ran;Shen, Shulin;Chen, Si;Yin, Nengwen;Tang, Yunshan;Liang, Ying;Lu, Kun;Qu, Cunmin;Li, Jiana
作者机构:
关键词: TIFY gene family; Brassiceae species; Brassica napus; evolutionary pattern; expression profiles; heavy metal stress
期刊名称:PLANTS-BASEL ( 影响因子:4.658; 五年影响因子:4.827 )
ISSN:
年卷期: 2022 年 11 卷 5 期
页码:
收录情况: SCI
摘要: The TIFY gene family plays important roles in various plant biological processes and responses to stress and hormones. The chromosome-level genome of the Brassiceae species has been released, but knowledge concerning the TIFY family is lacking in the Brassiceae species. The current study performed a bioinformatics analysis on the TIFY family comparing three diploid (B. rapa, B. nigra, and B. oleracea) and two derived allotetraploid species (B. juncea, and B. napus). A total of 237 putative TIFY proteins were identified from five Brassiceae species, and classified into ten subfamilies (six JAZ types, one PPD type, two TIFY types, and one ZML type) based on their phylogenetic relationships with TIFY proteins in A. thaliana and Brassiceae species. Duplication and synteny analysis revealed that segmental and tandem duplications led to the expansion of the TIFY family genes during the process of polyploidization, and most of these TIFY family genes (TIFYs) were subjected to purifying selection after duplication based on Ka/Ks values. The spatial and temporal expression patterns indicated that different groups of BnaTIFYs have distinct spatiotemporal expression patterns under normal conditions and heavy metal stresses. Most of the JAZIII subfamily members were highest in all tissues, but JAZ subfamily members were strongly induced by heavy metal stresses. BnaTIFY34, BnaTIFY59, BnaTIFY21 and BnaTIFY68 were significantly upregulated mostly under As3+ and Cd2+ treatment, indicating that they could be actively induced by heavy metal stress. Our results may contribute to further exploration of TIFYs, and provided valuable information for further studies of TIFYs in plant tolerance to heavy metal stress.
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