Glucosinolate Biosynthetic Genes of Cabbage: Genome-Wide Identification, Evolution, and Expression Analysis
文献类型: 外文期刊
第一作者: Wang, Peng
作者: Wang, Peng;Cheng, Shanhan;Wang, Peng;Cao, Wenxue;Yang, Limei;Zhang, Yangyong;Fang, Zhiyuan;Zhuang, Mu;Lv, Honghao;Wang, Yong;Ji, Jialei;Cao, Wenxue
作者机构:
关键词: glucosinolate biosynthetic gene; cabbage; exogenous hormone treatment; gene expression; phylogeny
期刊名称:GENES ( 影响因子:3.5; 五年影响因子:3.9 )
ISSN:
年卷期: 2023 年 14 卷 2 期
页码:
收录情况: SCI
摘要: Cabbage (Brassica oleracea var. capitata) is a vegetable rich in glucosinolates (GSLs) that have proven health benefits. To gain insights into the synthesis of GSLs in cabbage, we systematically analyzed GSLs biosynthetic genes (GBGs) in the entire cabbage genome. In total, 193 cabbage GBGs were identified, which were homologous to 106 GBGs in Arabidopsis thaliana. Most GBGs in cabbage have undergone negative selection. Many homologous GBGs in cabbage and Chinese cabbage differed in expression patterns indicating the unique functions of these homologous GBGs. Spraying five exogenous hormones significantly altered expression levels of GBGs in cabbage. For example, MeJA significantly upregulated side chain extension genes BoIPMILSU1-1 and BoBCAT-3-1, and the expression of core structure construction genes BoCYP83A1 and BoST5C-1, while ETH significantly repressed the expression of side chain extension genes such as BoIPMILSU1-1, BoCYP79B2-1, and BoMAMI-1, and some transcription factors, namely BoMYB28-1, BoMYB34-1, BoMYB76-1, BoCYP79B2-1, and BoMAMI-1. Phylogenetically, the CYP83 family and CYP79B and CYP79F subfamilies may only be involved in GSL synthesis in cruciferous plants. Our unprecedented identification and analysis of GBGs in cabbage at the genome-wide level lays a foundation for the regulation of GSLs synthesis through gene editing and overexpression.
分类号:
- 相关文献
作者其他论文 更多>>
-
Structural insights into the mechanism of phosphate recognition and transport by XPR1
作者:Zhang, Wenhui;Chen, Yanke;Guan, Zeyuan;Tang, Meng;Du, Zhangmeng;Zhang, Jie;Cheng, Meng;Zuo, Jiaqi;Liu, Yan;Wang, Qiang;Liu, Yanjun;Zhang, Delin;Yin, Ping;Ma, Ling;Liu, Zhu;Wang, Yong;Liu, Zhu
关键词:
-
Telomere-to-telomere genome assembly of eggplant ( Solanum melongena L.) promotes gene fine localization of the green stripe (GS) in pericarp
作者:Fang, Huarong;Wu, Jie;Xie, Liang;Li, Yizhiqi;Huang, Jingjing;Yan, Xiaoyun;He, Xuehan;Deng, Wentao;Li, Ruirui;Yu, Wenjin;Wang, Peng;Chen, Jie;Ji, Yanhai;Wen, Changlong
关键词:Eggplant; T2T genome; Green stripe
-
miR-17-5p-Mediated RNA Activation Upregulates KPNA2 Expression and Inhibits High-Glucose-Induced Apoptosis of Sheep Granulosa Cells
作者:Wang, Yong;Tian, Feng;Li, Jiuyue;Liu, Yang;Liang, Jianyong;Gao, Yuan;Xue, Shuyuan;Yue, Sicong;Li, Ao
关键词:high glucose; granulosa cell;
miR-17-5p ;KPNA2 ; apoptosis -
Evaluation of Two Different Treatments for Larch Logs as Substrates to Cultivate Ganoderma tsugae in the Forest
作者:Xia, Lei;Tan, Xiao;Wang, Peng;Yang, Dahai;Zhang, Yang;Cui, Yanru;Yu, Ya;Zhang, Weidong;Huang, Xiao;Wen, Jiawei
关键词:
Ganoderma tsugae ; larch logs; yield; agronomic traits; nutritional value -
Inoculation of the Morchella importuna mycosphere with Pseudomonas chlororaphis alleviated a soil-borne disease caused by Paecilomyces penicillatus
作者:Yu, Yang;Kang, Xia;Liu, Tianhai;Wang, Yong;Tang, Jie;Peng, Weihong;Tan, Hao;Martin, Francis M.;Tan, Hao;Martin, Francis M.
关键词:Diversity; Disease suppression; Function;
Morchella importuna ; Mycosphere soil microbiota;Pseudomonas chlororaphis -
Identification of Novel 58-5p and SREBF1 Interaction and Effects on Apoptosis of Ovine Ovarian Granulosa Cell
作者:Yang, Ruochen;Wang, Yong;Yue, Sicong;Liu, Yueqin;Zhang, Yingjie;Duan, Chunhui;Yang, Ruochen;Wang, Yong
关键词:ovine ovarian GCs; PRL; apoptosis; novel 58-5p; SREBF1
-
Genome-Enabled Analyses Reveal Roles of Mangrove Homeobox Superfamily in Response to Salinity
作者:Chen, Tingting;Chen, Tingting;Ye, Xiuxu;Wang, Peng;Feng, Erhui;Zhang, Yu;Wang, Peng
关键词:Homeobox superfamily; Rhizophoraceae; Mangrove; Salinity stress
