文献类型: 外文期刊
第一作者: Wang, Kailiang
作者: Wang, Kailiang;Guo, Jie;Zhang, Zhen;Chen, Jiafa;Sha, XiaoQian;Li, Yongxiang;Zhang, Dengfeng;Liu, Xuyang;He, Guanhua;Li, Yu;Wang, Tianyu;Li, Chunhui;Yu, Peng;Yu, Peng
作者机构:
关键词: domestication; RNA-Seq; root development; Zea mays; QTL
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:5.6; 五年影响因子:6.8 )
ISSN: 1664-462X
年卷期: 2023 年 14 卷
页码:
收录情况: SCI
摘要: Seminal roots play an important role in acquisition of water and nutrients by maize seedlings. Compared with its teosinte ancestor, maize underwent a change in seminal root number (SRN). Although several key genes controlling SRN have been cloned, identification and utilization of new genes from teosinte would be useful for improving maize root architecture. In this study, a maize-teosinte BC2F6 population containing 206 individuals genotyped by resequencing was used to conduct high-resolution quantitative trait locus (QTL) mapping of SRN. A new major QTL on chromosome 7 (qSRN7) was identified. Differentially expressed genes (DEGs) based on RNA-Seq were identified between two inbred lines with no SRN and multiple SRN at two periods of seminal roots primordia formation. A total of 116 DEGs detected in at least one period were identified within the qSRN7 interval. Three DEGs (Zm00001d021572, Zm00001d021579 and Zm00001d021861) associated with SRN were identified through regional association mapping. When compared with reported domestication-related selective sweeps, Zm00001d021572 was selected during maize domestication. Our findings provide important insights into the genetic basis of SRN and identify a promising candidate gene for further studies on SRN.
分类号:
- 相关文献
作者其他论文 更多>>
-
Effect of crowding stress on liver health, gut permeability and gut microbiota of genetically improved farmed tilapia (GIFT, Oreochromis niloticus)
作者:Zhang, Jian;Chen, Jie;Liang, Hui;Li, Ming;Zhou, Wenhao;Zhou, Zhigang;Yang, Yalin;Zhang, Zhen;Ran, Chao;Ding, Qianwen
关键词:Crowing stress; Apoptosis; Gut permeability; Gut microbiota; GIFT
-
Based on Network Pharmacology and Molecular Docking, the Active Components, Targets, and Mechanisms of Flemingia philippinensis in Improving Inflammation Were Excavated
作者:Zhang, Dongying;Li, Xiaoyong;Zhou, Qixing;Zhang, Zhen;Yang, Xiangxuan;Wang, Dongxue;Man, Jiaxu
关键词:Flemingia philippinensis; improve inflammation; network pharmacology; molecular docking
-
Physiological and transcriptomic analysis reveals the toxic and protective mechanisms of marine microalga Chlorella pyrenoidosa in response to TiO2 nanoparticles and UV-B radiation
作者:Zhu, Lin;Feng, Sulan;Sun, Xuemei;Sui, Qi;Chen, Bijuan;Qu, Keming;Xia, Bin;Zhu, Lin;Sun, Xuemei;Sui, Qi;Chen, Bijuan;Xia, Bin;Feng, Sulan;Li, Yu
关键词:Nanomaterials; UV-B; RNA sequencing; Internalization; Molecular mechanism
-
Identification, comparative and phylogenetic analysis of eight Vitis species based on the chloroplast genome revealed their contribution to heat tolerance in grapevines
作者:Zhang, Lipeng;Liu, Jingjing;Liu, Huaifeng;Ma, Chao;Song, Yue;Li, Junpeng;Zhang, Zhen;Xu, Yuanyuan;Fan, Dongying;Liu, Mingying;Ren, Yi;He, Juan;Song, Shiren;Xu, Wenping;Ma, Chao;Xi, Xiaojun
关键词:Grape; Chloroplast genomes; Heat stress; Mutation hotspot; Phylogenetic analysis
-
A nuclease-dead Cas9-derived tool represses target gene expression
作者:Wang, Bowen;Liu, Xiaolin;Zeng, Kang;Guo, Jiangyi;Xin, Tongxu;Yang, Xueyong;Wang, Bowen;Li, Zhenxiang;Li, Jian-Feng;Zeng, Kang;Guo, Jiangyi;Zhang, Zhen
关键词:
-
Integrated Metagenomic and Metabolomic Analysis on Two Competing Mussels, Mytella strigata and Perna viridis, in China
作者:Zuo, Chenxia;Zuo, Chenxia;Ma, Xiaojie;Zhu, Yi;Yan, Shaojing;Zhang, Zhen;Ma, Peizhen;Ma, Peizhen;Ma, Xiaojie;Zhu, Yi;Zhang, Zhen
关键词:biological invasion; intestinal microbiota; metabolite; enzyme activity
-
GLUT1 promotes cell proliferation via binds and stabilizes phosphorylated EGFR in lung adenocarcinoma
作者:Zhou, Zhiqing;Li, Yu;Chen, Sijie;Xie, Zhangrong;Du, Yuhui;Liu, Yue;Shi, Yuxuan;Lin, Xiangyi;Zeng, Xiaofei;Zhao, Huijie;Chen, Guoan;Zeng, Xiaofei;Zhao, Huijie;Chen, Guoan
关键词:LUAD; GLUT1; EGFR; Gefitinib; WZB117
