Genome-wide identification of DUF506 gene family in Oryza sativa and expression profiling under abiotic stresses
文献类型: 外文期刊
第一作者: Dong, Wei
作者: Dong, Wei;Tu, Jian;Deng, Wei;Zhang, Jianhua;Xu, Yuran;Gu, Anyu;An, Hua;Kui, Limei;Li, Xiaolin;Fan, Kui;Wang, Rui;Zhang, Jianping
作者机构:
关键词: DUF506; Gene family; Identification; Abiotic stress; Expression profile
期刊名称:PEERJ ( 影响因子:2.7; 五年影响因子:3.1 )
ISSN: 2167-8359
年卷期: 2023 年 11 卷
页码:
收录情况: SCI
摘要: The domain of unknown function 560 (DUF560), also known as the PDDEXK_6 family, is a ubiquitous plant protein that has been confirmed to play critical roles in Arabidopsis root development as well as ABA and abiotic responses. However, genome-wide identification and expression pattern analysis in rice (Oryza sativa) still need to be improved. Based on the phylogenetic relationship, 10 OsDUF506 genes were identified and classified into four subfamilies. Segmental duplication was essential to the expansion of OsDUF506s, which were subjected to purifying selective pressure. Except for OsDUF50609 and OsDUF50610, the OsDUF506s shared colinear gene pairs with five monocot species, showing that they were conserved in evolution. Furthermore, the conserved domains, gene structures, SNPs distribution, and targeting miRNAs were systematically investigated. Massive cis-regulatory elements were discovered in promoter regions, implying that OsDUF506s may be important in hormone regulation and abiotic stress response. Therefore, we analyzed plant hormone-induced transcriptome data and performed qRT-PCR on eight OsDUF506s under drought, cold, and phosphorus-deficient stresses. The results revealed that most OsDUF506s respond to ABA and JA treatment, as well as drought and cold conditions. In conclusion, our findings provided insights into the evolution and function of OsDUF506s, which could benefit crop breeding in the future.
分类号:
- 相关文献
作者其他论文 更多>>
-
Hierarchical structure with dielectric/magnetic network from Kapok fiber with enhanced microwave attenuation capacity
作者:Zhao, Pengfei;Wang, Rui;Tao, Jinlong;Liao, Lusheng;Peng, Zheng;Song, Ximei;Zhao, Yanfang;Liao, Jianhe
关键词:Kapok fiber; Carbon microtube; Hierarchical structure; Electromagnetic coupling; Microwave-absorbing performance
-
Label-free based comparative proteomics approach revealed the changes in proteomic profiles driven by different maturities in two Chinese white truffles, Tuber panzhihuanense and Tuber latisporum
作者:Zhang, Xiaoping;Chen, Li;Ye, Lei;Zhang, Bo;Li, Xiaolin;Zhang, Xiaoping
关键词:Truffle; Proteomics; T. panzhihuanense; T. latisporum; Maturation; Sulfur metabolism
-
R2R3-type LoMYB21 affects jasmonate-regulated development and dehiscence of anthers in lily (Lilium oriental hybrids)
作者:Tong, Zheng;Tong, Zheng;Tong, Zheng;Dong, Tingting;Li, Qiuhua;Wang, Rui;He, Junna;Hong, Bo;Li, Qiuhua
关键词:Lilium; LoMYB21; Anther dehiscence; Jasmonate acid
-
Effect of volatile compounds produced by Weissella cibaria BWL4 on Botrytis cinerea infection in fruit and complete genome sequence analysis of BWL4
作者:Zhang, Danfeng;Xu, Xuehua;Tian, Xinrui;Hu, Tingting;Shi, Wei;Bi, Wanling;Ye, Yingwang;Wang, Rui
关键词:Weissella cibaria; Genome sequencing; Gray mold; Fruit; GC-MS; Volatile compounds
-
Distribution, Accumulation and Translocation of the Heavy Metal Cd in Various Varieties of Edible Rapeseed under Cd Stress
作者:Liu, Jing;Kang, Lingyun;Du, Lianfeng;Liao, Shangqiang;Dong, Wei;Ma, Maoting;Zou, Guoyuan;Li, Shunjiang
关键词:edible rapeseed; Cd pollution; accumulation; translocation; variety
-
Comparative metabolomics and transcriptomics provide new insights into florpyrauxifen-benzyl resistance in Echinochloa glabrescens
作者:Jin, Wenyong;Xie, Kexin;Tang, Wei;Yang, Yongjie;Zhang, Jianping;Yu, Xiaoyue;Lu, Yongliang
关键词:Echinochloa glabrescens; florpyrauxifen-benzyl; metabolomics; transcriptomics; resistance; barnyard grass; herbicide
-
RhMYC2 controls petal size through synergistic regulation of jasmonic acid and cytokinin signaling in rose
作者:Gong, Feifei;Jing, Weikun;Jin, Weichan;Liu, Huwei;Zhang, Yuanfei;Wang, Rui;Wei, Yinghao;Tang, Kaiyang;Jiang, Yunhe;Gao, Junping;Sun, Xiaoming;Jing, Weikun;Sun, Xiaoming
关键词:jasmonic acid; cytokinin; RhMYC2; RhLOG3; cell division; petal growth
