文献类型: 外文期刊
第一作者: Yi, Fei
作者: Yi, Fei;Gu, Wei;Chen, Jian;Song, Ning;Gao, Xiang;Zhang, Xiangbo;Zhou, Yingsi;Ma, Xuxu;Song, Weibin;Zhao, Haiming;Lai, Jinsheng;Yi, Fei;Gu, Wei;Chen, Jian;Song, Ning;Gao, Xiang;Zhang, Xiangbo;Zhou, Yingsi;Ma, Xuxu;Song, Weibin;Zhao, Haiming;Lai, Jinsheng;Gu, Wei;Esteban, Eddi;Pasha, Asher;Provart, Nicholas J.;Lai, Jinsheng
作者机构:
期刊名称:PLANT CELL ( 影响因子:11.277; 五年影响因子:12.061 )
ISSN: 1040-4651
年卷期: 2019 年 31 卷 5 期
页码:
收录情况: SCI
摘要: The early maize (Zea mays) seed undergoes several developmental stages after double fertilization to become fully differentiated within a short period of time, but the genetic control of this highly dynamic and complex developmental process remains largely unknown. Here, we report a high temporal-resolution investigation of transcriptomes using 31 samples collected at an interval of 4 or 6 h within the first six days of seed development. These time-course transcriptomes were clearly separated into four distinct groups corresponding to the stages of double fertilization, coenocyte formation, cellularization, and differentiation. A total of 22,790 expressed genes including 1415 transcription factors (TFs) were detected in early stages of maize seed development. In particular, 1093 genes including 110 TFs were specifically expressed in the seed and displayed high temporal specificity by expressing only in particular period of early seed development. There were 160, 22, 112, and 569 seed-specific genes predominantly expressed in the first 16 h after pollination, coenocyte formation, cellularization, and differentiation stage, respectively. In addition, network analysis predicted 31,256 interactions among 1317 TFs and 14,540 genes. The high temporal-resolution transcriptome atlas reported here provides an important resource for future functional study to unravel the genetic control of seed development.
分类号:
- 相关文献
作者其他论文 更多>>
-
Progress in Microbial Fertilizer Regulation of Crop Growth and Soil Remediation Research
作者:Wang, Tingting;Xu, Jiaxin;Liu, Peng;Hou, Xin;Yang, Long;Zhang, Li;Chen, Jian
关键词:microbiological fertilizer; plant-growth-promoting bacteria; crop growth; soil remediation
-
A Novel Quercetin Encapsulated Glucose Modified Liposome and Its Brain-Target Antioxidative Neuroprotection Effects
作者:Chen, Jian;Xia, Chen;Deng, Junlin;Yu, Manyou;Xiang, Zuoya;Gan, Lu;Zhu, Boyu;Yang, Xing;Chen, Jinxia;Yu, Peiyun;Yang, Chunyan;Wu, Yong
关键词:quercetin; neuroprotection; brain-target; liposome; antioxidant
-
Comprehensive Analysis of Phenolic Constituents, Biological Activities, and Derived Aroma Differences of Penthorum chinense Pursh Leaves after Processing into Green and Black Tea
作者:Xiang, Zhuoya;Zhu, Boyu;Yang, Xing;Deng, Junlin;Zhu, Yongqing;Gan, Lu;Yu, Manyou;Chen, Jian;Xia, Chen;Chen, Song
关键词:P. chinense leaves; processing; phenolic constituents; volatile compounds; biological activities
-
Development and characterization of a novel nanobody with SRMV neutralizing activity
作者:Sun, Miao;Chen, Yanfei;Chen, Jian;Li, Ling;Xue, Qinghong;Wang, Changjiang;Qu, Guanggang;Luo, Huaye;Zhang, Min
关键词:Small ruminant morbillivirus (SRMV); Nanobody; Fusion protein; Hemagglutinin protein
-
Pathogen-induced methylglyoxal negatively regulates rice bacterial blight resistance by inhibiting OsCDR1 protease activity
作者:Fu, Zheng-Wei;Li, Jian-Hui;Gao, Xiang;Wang, Shi-Jia;Yuan, Ting -Ting;Lu, Ying-Tang;Fu, Zheng-Wei
关键词:Oryza sativa; bacterial blight; OsWRKY62.1; methylglyoxal; OsCDR1
-
Portable hydrogel kit driven by bimetallic carbon dots nanozyme for H2O2-self-supplying dual-modal monitoring of atmospheric CH3SH
作者:Gao, Xiang;Chen, Huanhuan;Qiu, Huimin;Zhang, Yang;Shen, Yizhong;Cheng, Jie
关键词:Gaseous pollutantCH3SH; Bimetallic nanozyme; Colorimetric and photothermal; Portable hydrogel kit
-
Application of CRISPR/Cas12i.3 for targeted mutagenesis in broomcorn millet (Panicum miliaceum L.)
作者:Bai, Yuhe;Bai, Yan;Xu, Zhisong;Zhao, Hainan;Zhao, Haiming;Lai, Jinsheng;Song, Weibin;Bai, Yan;Xu, Zhisong;Liu, Ya
关键词:Agrobacterium tumefaciens; broomcorn millet; CRISPR/Cas12i.3; genetic transformation; PmBR2
