A developed system to extract specific responses of increment length in rice shoots under gradient changes in nitrogen concentration regimes
Author:
Affiliation:
1. Graduate School of Life and Environmental Science, University of Tsukuba
2. Kazusa DNA Research Institute
3. Riken Center for Sustainable Resource Science
Publisher
Japanese Society for Plant Cell and Molecular Biology
Subject
Plant Science,Agronomy and Crop Science,Biotechnology
Link
https://www.jstage.jst.go.jp/article/plantbiotechnology/40/1/40_22.1107a/_pdf
Reference22 articles.
1. Chandran AKN, Priatama RA, Kumar V, Xuan Y, Je BI, Kim CM, Jung K-H, Han C (2016) Genome-wide transcriptome analysis of expression in rice seedling roots in response to supplemental nitrogen. J Plant Physiol 200: 62–75
2. Funayama K, Kojima S, Tabuchi-Kobayashi M, Sawa Y, Nakayama Y, Hayakawa T, Yamaya T (2013) Cytosolic Glutamine Synthetase1;2 is Responsible for the Primary Assimilation of Ammonium in Rice Roots. Plant Cell Physiol 54: 934–943
3. Gu P, Luo F, Tao W, Li Y, Wang D, Wu X, Ju X, Chao L, Zhang Y (2022) Higher nitrogen content and auxin export from rice tiller enhance low-ammonium-dependent tiller outgrowth. J Plant Physiol 268: 153562
4. Hamaoka N, Uchida Y, Tomita M, Kumagai E, Araki T, Ueno O (2013) Genetic variations in dry matter production, nitrogen uptake, and nitrogen use efficiency in the AA genome Oryza species grown under different nitrogen conditions. Plant Prod Sci 16: 107–116
5. Ishii S, Ikeda S, Minamisawa K, Senno K (2011) Nitrogen cycling in rice paddy environments: Past achievements and future challenges. Microbes Environ 26: 282–292
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