Time-course transcriptomic analysis reveals transcription factors involved in modulating nitrogen sensibility in maize  

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作  者:Mingliang Zhang Yuancong Wang Qi Wu Yangming Sun Chenxu Zhao Min Ge Ling Zhou Tifu Zhang Wei Zhang Yiliang Qian Long Ruan Han Zhao 

机构地区:[1]Institute of Crop Germplasm and Biotechnology,Jiangsu Provincial Key Laboratory of Agrobiology,Jiangsu Academy of Agricultural Sciences,Nanjing,Jiangsu 210014,China [2]Crop Institute,Anhui Academy of Agricultural Sciences,Hefei,Anhui 230041,China

出  处:《Journal of Genetics and Genomics》2025年第3期400-410,共11页遗传学报(英文版)

基  金:supported by the National Natural Science Foundation of China(32272133);the“JBGS”Project of Seed Industry Revitalization in Jiangsu Province(JBGS(2021)012);Jiangsu Agriculture Science and Technology Innovation Fund(CX(21)1003);Anhui Provincial Major Science and Technology Project(202003a06020004);Jiangsu Funding Program for Excellent Postdoctoral Talent(JB23058,2023ZB422).

摘  要:Nitrogen(N)serves both as a vital macronutrient and a signaling molecule for plants.Unveiling key regulators involved in N metabolism helps dissect the mechanisms underlying N metabolism,which is essential for developing maize with high N use efficiency.Two maize lines,B73 and Ki11,show differential chlorate and low-N tolerance.Time-course transcriptomic analysis reveals that the expression of N utilization genes(NUGs)in B73 and Ki11 have distinct responsive patterns to nitrate variation.By the coexpression networks,significant differences in the number of N response modules and regulatory networks of transcription factors(TFs)are revealed between B73 and Ki11.There are 23 unique TFs in B73 and 41 unique TFs in Ki11.MADS26 is a unique TF in the B73 N response network,with different expression levels and N response patterns in B73 and Ki11.Overexpression of MADS26 enhances the sensitivity to chlorate and the utilization of nitrate in maize,at least partially explaining the differential chlorate tolerance and low-N sensitivity between B73 and Ki11.The findings in this work provide unique insights and promising candidates for maize breeding to reduce unnecessary N overuse.

关 键 词:MAIZE GENOTYPE N response DiffCoEx network MADS26 

分 类 号:S513[农业科学—作物学]

 

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