Current strategies and advances in wheat biology
發(fā)布時(shí)間:2021-03-09 22:41
The characterization of agronomically important genes has great potential for the improvement of wheat. However, progress in wheat genetics and functional genomics has been impeded by the high complexity and enormous size of the wheat genome. Recent advances in genome sequencing and sequence assembly have produced a high-quality genome sequence for wheat. Here, we suggest that the strategies used to characterize biological mechanisms in model species, including mutant preparation and characteriz...
【文章來(lái)源】:The Crop Journal. 2020,8(06)
【文章頁(yè)數(shù)】:13 頁(yè)
【文章目錄】:
1. Introduction
2. Strategies used in wheat biology
2.1. Mutagenesis,mutant preparation,and characterization
2.2. Gene cloning methods
2.2.1. Progress in wheat genome sequencing
2.2.2. Traditional gene cloning methods
2.2.3. Genetic mapping based on sequencing
2.2.4. MutMap-based cloning
2.3. Genetic transformation of wheat
3. Advances in wheat functional genomics
3.1. Vernalization and flowering
3.2. Disease resistance
3.3. Wheat yield-and quality-related genes
3.4. Male sterility
3.5. Nutrient uptake in wheat
4. Conclusions and future perspectives
【參考文獻(xiàn)】:
期刊論文
[1]Wheat functional genomics in the era of next generation sequencing: An update[J]. Meiling Jia,Jiantao Guan,Zhiwen Zhai,Shuaifeng Geng,Xueyong Zhang,Long Mao,Aili Li. The Crop Journal. 2018(01)
[2]Sequencing and comparative analyses of Aegilops tauschii chromosome arm 3DS reveal rapid evolution of Triticeae genomes[J]. Jingzhong Xie,Naxin Huo,Shenghui Zhou,Yi Wang,Guanghao Guo,Karin R.Deal,Shuhong Ouyang,Yong Liang,Zhenzhong Wang,Lichan Xiao,Tingting Zhu,Tiezhu Hu,Vijay Tiwari,Jianwei Zhang,Hongxia Li,Zhongfu Ni,Yingyin Yao,Huiru Peng,Shengli Zhang,Olin D.Anderson,Patrick E.McGuire,Jan Dvorak,Ming-Cheng Luo,Zhiyong Liu,Yong Q.Gu,Qixin Sun. Journal of Genetics and Genomics. 2017(01)
[3]Breeding high-yield superior quality hybrid super rice by rational design[J]. Qian Qian,Longbiao Guo,Steven M.Smith,Jiayang Li. National Science Review. 2016(03)
本文編號(hào):3073595
【文章來(lái)源】:The Crop Journal. 2020,8(06)
【文章頁(yè)數(shù)】:13 頁(yè)
【文章目錄】:
1. Introduction
2. Strategies used in wheat biology
2.1. Mutagenesis,mutant preparation,and characterization
2.2. Gene cloning methods
2.2.1. Progress in wheat genome sequencing
2.2.2. Traditional gene cloning methods
2.2.3. Genetic mapping based on sequencing
2.2.4. MutMap-based cloning
2.3. Genetic transformation of wheat
3. Advances in wheat functional genomics
3.1. Vernalization and flowering
3.2. Disease resistance
3.3. Wheat yield-and quality-related genes
3.4. Male sterility
3.5. Nutrient uptake in wheat
4. Conclusions and future perspectives
【參考文獻(xiàn)】:
期刊論文
[1]Wheat functional genomics in the era of next generation sequencing: An update[J]. Meiling Jia,Jiantao Guan,Zhiwen Zhai,Shuaifeng Geng,Xueyong Zhang,Long Mao,Aili Li. The Crop Journal. 2018(01)
[2]Sequencing and comparative analyses of Aegilops tauschii chromosome arm 3DS reveal rapid evolution of Triticeae genomes[J]. Jingzhong Xie,Naxin Huo,Shenghui Zhou,Yi Wang,Guanghao Guo,Karin R.Deal,Shuhong Ouyang,Yong Liang,Zhenzhong Wang,Lichan Xiao,Tingting Zhu,Tiezhu Hu,Vijay Tiwari,Jianwei Zhang,Hongxia Li,Zhongfu Ni,Yingyin Yao,Huiru Peng,Shengli Zhang,Olin D.Anderson,Patrick E.McGuire,Jan Dvorak,Ming-Cheng Luo,Zhiyong Liu,Yong Q.Gu,Qixin Sun. Journal of Genetics and Genomics. 2017(01)
[3]Breeding high-yield superior quality hybrid super rice by rational design[J]. Qian Qian,Longbiao Guo,Steven M.Smith,Jiayang Li. National Science Review. 2016(03)
本文編號(hào):3073595
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