Grain proteomic analysis reveals central stress responsive p
发布时间:2022-02-20 02:33
Haynaldia villosa(2 n=14, VV), a wild grass of the subtribe Triticeae, serves as potential gene resources for wheat genetic improvement. In this study, the proteome characterization during grain development of Yangmai 5 and Yangmai 5-H. villosa 6 VS/6 AL translocation line was investigated by a comparative proteomic approach. Two-dimensional electrophoresis identified 81 differentially accumulated proteins(DAPs) during five grain developmental stages in wheat-H. villosa translocation line. These...
【文章来源】:Journal of Integrative Agriculture. 2020,19(11)SCICSCD
【文章页数】:15 页
【文章目录】:
1. Introduction
2. Materials and methods
2.1. Plant materials and field trial
2.2. Agronomic trait testing
2.3. Protein extraction
2.4.2-DE and image analysis
2.5. MALDI-TOF/TOF-MS
2.6. Subcellular localization through website prediction and wheat protoplast transformation
2.7. Hierarchical clustering analysis
2.8. Identification of the cis-acting elements in the adverse responsive protein genes
2.9. RNA-seq expression analysis
2.1 0. mRNA extraction and RT-qPCR
3. Results
3.1. Differential proteome identification between Yangmai 5 and 6VS/6AL translocation line
3.2. Functional classification and subcellular localization
3.3. Dynamic proteome expression profiling during grain development of 6VS/6AL translocation line
3.4. Analysis of cis-acting elements in the key DAP genes
3.5. RNA-seq expression analysis of the DAP genes in different organs and development stages
3.6. Dynamic transcriptionalexpression profiling of the key DAPgenes during grain development as revealed by RT-qPCR
4. Discussion
4.1. Biotic stress related proteins from 6VS
4.2. Abiotic stress related proteins from 6VS
5. Conclusion
【参考文献】:
期刊论文
[1]Transcriptome analysis reveals key differentially expressed genes involved in wheat grain development[J]. Yonglong Yu,Dong Zhu,Chaoying Ma,Hui Cao,Yaping Wang,Yanhao Xu,Wenying Zhang,Yueming Yan. The Crop Journal. 2016(02)
[2]Distribution of highly repeated DNA sequences in Haynaldia villosa and its application in the identification of alien chromatin[J]. ZHANG Wei,ZHANG RuiQi,FENG YiGao,BIE TongDe,CHEN PeiDu. Chinese Science Bulletin. 2013(08)
[3]由簇毛麦V染色体引起的小麦-簇毛麦染色体代换系、易位系中线粒体蛋白质组的变化(简报)[J]. 李纯正,尹凤英,黄海泉,王振英,彭永康,谢超杰,刘志勇,孙其信,杨作民. 分子细胞生物学报. 2008(02)
[4]普通小麦-簇毛麦6VS/6AL易位系cyclophilin基因的克隆与序列分析[J]. 何华纲,朱姗颖,王秀娥,陈佩度. 河南农业科学. 2008(01)
[5]小麦-簇毛麦6VS/6AL易位系可转化人工染色体(TAC)文库的构建[J]. 方玉达,刘耀光,吴豪,张群宇,陈佩度,刘大钧. 生物工程学报. 2000(04)
[6]小麦白粉病新抗源——基因Pm21[J]. 齐莉莉,陈佩度,刘大钧,周波,张守中,盛宝钦,向齐君,段霞渝,周益林. 作物学报. 1995(03)
[7]将簇毛麦种质转移给小麦的研究[J]. 刘大钩,陈佩度,裴广铮,王耀南. 遗传学报. 1983(02)
本文编号:3634131
【文章来源】:Journal of Integrative Agriculture. 2020,19(11)SCICSCD
【文章页数】:15 页
【文章目录】:
1. Introduction
2. Materials and methods
2.1. Plant materials and field trial
2.2. Agronomic trait testing
2.3. Protein extraction
2.4.2-DE and image analysis
2.5. MALDI-TOF/TOF-MS
2.6. Subcellular localization through website prediction and wheat protoplast transformation
2.7. Hierarchical clustering analysis
2.8. Identification of the cis-acting elements in the adverse responsive protein genes
2.9. RNA-seq expression analysis
2.1 0. mRNA extraction and RT-qPCR
3. Results
3.1. Differential proteome identification between Yangmai 5 and 6VS/6AL translocation line
3.2. Functional classification and subcellular localization
3.3. Dynamic proteome expression profiling during grain development of 6VS/6AL translocation line
3.4. Analysis of cis-acting elements in the key DAP genes
3.5. RNA-seq expression analysis of the DAP genes in different organs and development stages
3.6. Dynamic transcriptionalexpression profiling of the key DAPgenes during grain development as revealed by RT-qPCR
4. Discussion
4.1. Biotic stress related proteins from 6VS
4.2. Abiotic stress related proteins from 6VS
5. Conclusion
【参考文献】:
期刊论文
[1]Transcriptome analysis reveals key differentially expressed genes involved in wheat grain development[J]. Yonglong Yu,Dong Zhu,Chaoying Ma,Hui Cao,Yaping Wang,Yanhao Xu,Wenying Zhang,Yueming Yan. The Crop Journal. 2016(02)
[2]Distribution of highly repeated DNA sequences in Haynaldia villosa and its application in the identification of alien chromatin[J]. ZHANG Wei,ZHANG RuiQi,FENG YiGao,BIE TongDe,CHEN PeiDu. Chinese Science Bulletin. 2013(08)
[3]由簇毛麦V染色体引起的小麦-簇毛麦染色体代换系、易位系中线粒体蛋白质组的变化(简报)[J]. 李纯正,尹凤英,黄海泉,王振英,彭永康,谢超杰,刘志勇,孙其信,杨作民. 分子细胞生物学报. 2008(02)
[4]普通小麦-簇毛麦6VS/6AL易位系cyclophilin基因的克隆与序列分析[J]. 何华纲,朱姗颖,王秀娥,陈佩度. 河南农业科学. 2008(01)
[5]小麦-簇毛麦6VS/6AL易位系可转化人工染色体(TAC)文库的构建[J]. 方玉达,刘耀光,吴豪,张群宇,陈佩度,刘大钧. 生物工程学报. 2000(04)
[6]小麦白粉病新抗源——基因Pm21[J]. 齐莉莉,陈佩度,刘大钧,周波,张守中,盛宝钦,向齐君,段霞渝,周益林. 作物学报. 1995(03)
[7]将簇毛麦种质转移给小麦的研究[J]. 刘大钩,陈佩度,裴广铮,王耀南. 遗传学报. 1983(02)
本文编号:3634131
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