Citations (46)
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Hiroshi Masuda, May Sann Aung, Keisuke Maeda, Takanori Kobayashi, Naoki Takata, Toru Taniguchi & Naoko K. Nishizawa. (2018) Iron-deficiency response and expression of genes related to iron homeostasis in poplars. Soil Science and Plant Nutrition 64:5, pages 576-588.
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Motofumi Suzuki, Tomoko Nozoye, Seiji Nagasaka, Hiromi Nakanishi, Naoko K. Nishizawa & Satoshi Mori. (2016) The detection of endogenous 2’-deoxymugineic acid in olives (Olea europaea L.) indicates the biosynthesis of mugineic acid family phytosiderophores in non-graminaceous plants. Soil Science and Plant Nutrition 62:5-6, pages 481-488.
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Tomoko Nozoye, Suyoen Kim, Yusuke Kakei, Michiko Takahashi, Hiromi Nakanishi & Naoko K. Nishizawa. (2014) Enhanced levels of nicotianamine promote iron accumulation and tolerance to calcareous soil in soybean. Bioscience, Biotechnology, and Biochemistry 78:10, pages 1677-1684.
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Tomoko Nozoye, Kyoko Tsunoda, Seiji Nagasaka, Khurram Bashir, Michiko Takahashi, Takanori Kobayashi, Hiromi Nakanishi & Naoko K Nishizawa. (2014) Rice nicotianamine synthase localizes to particular vesicles for proper function. Plant Signaling & Behavior 9:5.
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Yasuaki WADA, Isomaro YAMAGUCHI, Michiko TAKAHASHI, Hiromi NAKANISHI, Satoshi MORI & Naoko K. NISHIZAWA. (2007) Highly Sensitive Quantitative Analysis of Nicotianamine Using LC/ESI-TOF-MS with an Internal Standard. Bioscience, Biotechnology, and Biochemistry 71:2, pages 435-441.
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DirkV. Charlson & RandyC. Shoemaker. (2006) Evolution of Iron Acquisition in Higher Plants. Journal of Plant Nutrition 29:6, pages 1109-1125.
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Yasuaki WADA, Takanori KOBAYASHI, Michiko TAKAHASHI, Hiromi NAKANISHI, Satoshi MORI & Naoko K. NISHIZAWA. (2006) Metabolic Engineering of Saccharomyces cerevisiae Producing Nicotianamine: Potential for Industrial Biosynthesis of a Novel Antihypertensive Substrate. Bioscience, Biotechnology, and Biochemistry 70:6, pages 1408-1415.
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Kazuya SUZUKI, Hiromi NAKANISHI, Naoko K. NISHIZAWA & Satoshi MORI. (2001) Analysis of Upstream Region of Nicotianamine Synthase Gene from Arabidopsis thaliana: Presence of Putative ERE-like Sequence. Bioscience, Biotechnology, and Biochemistry 65:12, pages 2794-2797.
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Articles from other publishers (37)
Xi Wu, Yafeng Jia, Qian Ma, Tingting Wang, Jiena Xu, Hongli Chen, Mingxia Wang, Hui Song & Shuqing Cao. (2024)
The transcription factor
bZIP44
cooperates with
MYB10
and
MYB72
to regulate the response of
Arabidopsis thaliana
to iron deficiency stress
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Hiroyuki Seebach, Gabriel Radow, Michael Brunek, Frank Schulz, Markus Piotrowski & Ute Krämer. (2023) Arabidopsis nicotianamine synthases comprise a common core-NAS domain fused to a variable autoinhibitory C terminus. Journal of Biological Chemistry 299:6, pages 104732.
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Xinyang Wang, Jingwei Liang, Ziyi Liu, Yuxuan Kuang, Lina Han, Hui Chen, Xianan Xie, Wentao Hu & Ming Tang. (2022) Transcriptional regulation of metal metabolism- and nutrient absorption-related genes in Eucalyptus grandis by arbuscular mycorrhizal fungi at different zinc concentrations. BMC Plant Biology 22:1.
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Anil Kumar, Gazaldeep Kaur, Palvinder Singh, Varsha Meena, Shivani Sharma, Manish Tiwari, Petra Bauer & Ajay Kumar Pandey. (2022) Strategies and Bottlenecks in Hexaploid Wheat to Mobilize Soil Iron to Grains. Frontiers in Plant Science 13.
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Shaoning Chen, Min Zhang, Ying Feng, Zulfiqar Ali Sahito, Shengke Tian & Xiaoe Yang. (2019) Nicotianamine Synthase Gene 1 from the hyperaccumulator Sedum alfredii Hance is associated with Cd/Zn tolerance and accumulation in plants. Plant and Soil 443:1-2, pages 413-427.
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Tomoko Nozoye. (2018) The Nicotianamine Synthase Gene Is a Useful Candidate for Improving the Nutritional Qualities and Fe-Deficiency Tolerance of Various Crops. Frontiers in Plant Science 9.
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Iron deficiency stress can induce MxNAS1 protein expression to facilitate iron redistribution in
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Tomoko Nozoye, Motoyasu Otani, Takeshi Senoura, Hiromi Nakanishi & Naoko K. Nishizawa. (2016) Overexpression of barley nicotianamine synthase 1 confers tolerance in the sweet potato to iron deficiency in calcareous soil. Plant and Soil 418:1-2, pages 75-88.
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Large Expression Differences in Genes for Iron and Zinc Homeostasis, Stress Response, and Lignin Biosynthesis Distinguish Roots of
Arabidopsis thaliana
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