Transcriptome analysis reveals the molecular mechanisms of response to an emergent yellow-flower disease in green Chinese prickly ash (Zanthoxylum schinifolium)
文献类型: 外文期刊
第一作者: Xu, Fan
作者: Xu, Fan;Meng, Qian;Suo, Xiaodong;Luo, Ming;Xie, Yonghong;Cheng, Yueqing
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:3.8; 五年影响因子:4.3 )
ISSN: 2045-2322
年卷期: 2021 年 11 卷 1 期
页码:
收录情况: SCI
摘要: Chinese prickly ash (Zanthoxylum) is extensively used as spice and traditional medicine in eastern Asian countries. Recently, an emergent yellow-flower disease (YFD) break out in green Chinese prickly ash (Zanthoxylum schinifolium, Qinghuajiao in Chinese) at Chongqing municipality, and then leads to a sharp reduction in the yield of Qinghuajiao, and thus results in great economic losses for farmers. To address the molecular response for the emergent YFD of Qinghuajiao, we analyzed the transcriptome of 12 samples including the leaves and inflorescences of asymptomatic and symptomatic plants from three different towns at Chongqing by high-throughput RNA-Seq technique. A total of 126,550 genes and 229,643 transcripts were obtained, and 21,054 unigenes were expressed in all 12 samples. There were 56 and 164 different expressed genes (DEGs) for the AL_vs_SL (asymptomatic leaf vs symptomatic leaf) and AF_vs_SF (asymptomatic flower vs symptomatic flower) groups, respectively. The results of KEGG analysis showed that the "phenylpropanoid biosynthesis" pathway that related to plant-pathogen interaction were found in AL_vs_SL and AF_vs_SF groups, and the "Plant-pathogen interaction" found in AF_vs_SF group, implying that this Qinghuajiao YFD might cause by plant pathogen. Interestingly, we detected 33 common unigenes for the 2 groups, and almost these unigenes were up-regulated in the symptomatic plants. Moreover, most of which were homologs to virus RNA, the components of viruses, implying that this YFD was related to virus. Our results provided a primary molecular basis for the prevention and treatment of YFD of Qinghuajiao trees.
分类号:
- 相关文献
作者其他论文 更多>>
-
Blockchain-Empowered H-CPS Architecture for Smart Agriculture
作者:Wang, Xiaoding;Wu, Qibin;Que, Youxiong;Wang, Xiaoding;Zeng, Haitao;Yang, Xu;Cui, Hui;Yi, Xun;Piran, Md. Jalil;Luo, Ming;Que, Youxiong
关键词:blockchain; human-cyber-physical systems; prospect; semantic blockchain; smart agriculture
-
Bioimaging analysis reveals the constrained transport of mineral elements from the epidermis in ginseng root with red skin syndrome
作者:Luo, Ming;Zhao, Zixin;Ma, Ying;You, Jiangfeng;Chen, Anle;Zhan, Zhonggen
关键词:Aluminum toxicity; Bioimaging; LA-ICP-TOF-MS; Mineral elements; Red skin ginseng
-
Optimization of a multi-environmental detection model for tomato growth point buds based on multi-strategy improved YOLOv8
作者:Liu, Jiang;Zhang, Changfu;Zhao, Jinpeng;Yu, Jingxin;Zheng, Wengang;Xu, Fan;Wei, Xiaoming;Cui, Huankang
关键词:Tomato growing point; Deep learning; Small target detection; YOLOv8n; Multi-strategy optimisation
-
From Code to Life: The AI-Driven Revolution in Genome Editing
作者:Li, Zhidong;Khan, Wasi Ullah;Zhang, Youpeng;Wang, Chong;Zhang, Hongbin;Chen, Fei;Li, Zhidong;Khan, Wasi Ullah;Zhang, Youpeng;Wang, Chong;Zhang, Hongbin;Chen, Fei;Bai, Genxiang;Luo, Ming;Dong, Chao;Wang, Jungang;Wang, Wenyi
关键词:artificial intelligence; CRISPR; deep learning; genome editing; gene regulation
-
Genetically-encoded targeted protein degradation technology to remove endogenous condensation-prone proteins and improve crop performance
作者:Luo, Ming;Zhu, Sitao;Dang, Hua;Wen, Qing;Niu, Ruixia;Long, Jiawei;Wang, Zhao;Tong, Yongjia;Xu, Guoyong;Luo, Ming;Zhu, Sitao;Dang, Hua;Wen, Qing;Niu, Ruixia;Long, Jiawei;Wang, Zhao;Yuan, Meng;Xu, Guoyong;Luo, Ming;Zhu, Sitao;Dang, Hua;Wen, Qing;Niu, Ruixia;Long, Jiawei;Wang, Zhao;Xu, Guoyong;Ning, Yuese;Yuan, Meng
关键词:
-
Trienzyme-in-One Nanoparticle Making Multifunctional Synergistic Nanorobot for Tumor Therapy
作者:Gao, Zhixue;Yang, Zili;Luo, Ming;Pei, Ziye;Xu, Wentao;Liu, Yushan;Guo, Jie;Zhao, Suling;Guan, Jianguo;Xiang, Xia;Yu, Zili;Guan, Jianguo
关键词:enzyme; nanorobot; selective toxicity; synergistic therapy; tumor penetration
-
Predicting potentially suitable Bletilla striata habitats in China under future climate change scenarios using the optimized MaxEnt model
作者:Luo, Ming;Yang, Pingfei;Yang, Lili;Zheng, Zhihong;Chen, Yaya;Li, Huan;Wu, Mingkai;Luo, Ming;Yang, Pingfei;Yang, Lili;Zheng, Zhihong;Chen, Yaya;Wu, Mingkai
关键词:Potential suitable area; Climate change; Environmental variable; MaxEnt model; Distribution centroid; Shared socio-economic path
