Identification of Grape Laccase Genes and Their Potential Role in Secondary Metabolite Synthesis
文献类型: 外文期刊
第一作者: Wang, Hao
作者: Wang, Hao;Zhong, Haixia;Zhang, Fuchun;Zhang, Chuan;Zhang, Songlin;Zhou, Xiaoming;Wu, Xinyu;Yadav, Vivek
作者机构:
关键词: laccase; grapevine; gene family; secondary metabolites; RNA-seq; berry development
期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:4.9; 五年影响因子:5.7 )
ISSN: 1661-6596
年卷期: 2024 年 25 卷 19 期
页码:
收录情况: SCI
摘要: Laccase, a copper-containing oxidoreductase, has close links with secondary metabolite biosynthesis in plants. Its activity can affect the synthesis and accumulation of secondary metabolites, thereby influencing plant growth, development, and stress resistance. This study aims to identify the grape laccases (VviLAC) gene family members in grape (Vitis vinifera L.) and explore the transcriptional regulatory network in berry development. Here, 115 VviLACs were identified and divided into seven (Type I-VII) classes. These were distributed on 17 chromosomes and out of 47 VviLACs on chromosome 18, 34 (72.34%) were involved in tandem duplication events. VviLAC1, VviLAC2, VviLAC3, and VviLAC62 were highly expressed before fruit color development, while VviLAC4, VviLAC12, VviLAC16, VviLAC18, VviLAC20, VviLAC53, VviLAC60 and VviLAC105 were highly expressed after fruit color transformation. Notably, VviLAC105 showed a significant positive correlation with important metabolites including resveratrol, resveratrol dimer, and peonidin-3-glucoside. Analysis of the transcriptional regulatory network predicted that the 12 different transcription factors target VviLACs genes. Specifically, WRKY and ERF were identified as potential transcriptional regulatory factors for VviLAC105, while Dof and MYB were identified as potential transcriptional regulatory factors for VviLAC51. This study identifies and provides basic information on the grape LAC gene family members and, in combination with transcriptome and metabolome data, predicts the upstream transcriptional regulatory network of VviLACs.
分类号:
- 相关文献
作者其他论文 更多>>
-
Polysaccharides from Astragalus membranaceus Bunge alleviate LPS-induced neuroinflammation in mice by modulating microbe-metabolite-brain axis and MAPK/NF-κB signaling pathway
作者:Liu, Dongyuan;Hou, Ziming;Wang, Hao;Zhu, Yuying;Li, Qiangqiang
关键词:Astragalus membranaceus Bunge; polysaccharides; Anti-neuroinflammation; Microbe-metabolite-brain axis
-
A collaborative scheduling and planning method for multiple machines in harvesting and transportation operations-Part I: Harvester task allocation and sequence optimization
作者:Wang, Ning;Li, Shunda;Han, Yuxiao;Zhang, Man;Li, Han;Wang, Ning;Xiao, Jianxing;Wang, Tianhai;Zhang, Man;Wang, Hao;Wang, Hao
关键词:Agricultural machine; Collaborative scheduling; Scheduling model; Electronic map; Path planning
-
Monitoring the insecticide susceptibility of a newly introduced invasive species, Tuta absoluta (Meyrick), in China
作者:Zhang, Yi-bo;Li, Han;Tian, Xiao-cao;Wang, Hao;Geng, Li-li;Zhang, Jie;Liu, Wan-xue;Wan, Fang-hao;Zhang, Gui-fen;Han, Peng;Tian, Xiao-cao;Guedes, Raul-Narciso;Nicolas, Desneux
关键词:C hemical control; Leaf miner; Diamide; Spinosyn; Bacillus thuringiensis
-
Transcriptome and metabolite reveal the inhibition induced by combined heat and drought stress on the viability of silk and pollen in summer maize
作者:Li, Hongwei;Tang, Yulou;Meng, Fanzheng;Liang, Weiwei;Wang, Yongchao;Wang, Hao;Guo, Jiameng;Yang, Qinghua;Shao, Ruixin;Zhou, Wenqi;Yang, Junwei
关键词:Combined stress; Summer maize; Silk; Pollen; Viability
-
MtCro: multi-task deep learning framework improves multi-trait genomic prediction of crops
作者:Chao, Dian;Wan, Fengqiang;Yang, Yang;Wang, Hao;Yan, Shen;Fang, Wei
关键词:Deep learning; Genomic prediction; Multi-task learning; Crop breeding
-
Identification of targets and comparative study of administration methods for the lipid-lowering effects of fucoidan from Saccharina japonica
作者:Chen, Pengwei;Wang, Hao;Chen, Huiqin;Dai, Haofu;Hao, Li;Li, Quancai;Zhang, Miao;Jiang, Hongfei;Zhang, Renshuai;Jia, Ang
关键词:Fucoidan; Lipid-lowering activity; Dietary supplementation; Intestinal target; Gut microbiota
-
Hybrid path planning methods for complete coverage in harvesting operation scenarios
作者:Wang, Ning;Jin, Zhiwen;Zhang, Zhao;Zhang, Man;Li, Han;Wang, Ning;Jin, Zhiwen;Wang, Tianhai;Xiao, Jianxing;Zhang, Man;Wang, Hao;Wang, Hao
关键词:Agricultural machinery; Complete coverage path planning; Minimum row spacing; Corner turning path model; Electronic map
