Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/participation-of-nitrate-sensor-nrt1-1-in-the-control-of-cytokinin-It1Mgunl6q
References (23)
-
A. Gojon, Gabriel Krouk, F. Perrine-Walker, Edith Laugier (2011)
Nitrate transceptor(s) in plants.Journal of experimental botany, 62 7
-
V. Ivanov, A. Filin (2018)
Cytokinins regulate root growth through its action on meristematic cell proliferation but not on the transition to differentiation.Functional plant biology : FPB, 45 2
-
V. Trapeznikov, I. Ivanov, G. Kudoyarova (2003)
Effect of heterogeneous distribution of nutrients on root growth, ABA content and drought resistance of wheat plantsPlant and Soil, 252
-
Peter Roycewicz, J. Malamy (2012)
Dissecting the effects of nitrate, sucrose and osmotic potential on Arabidopsis root and shoot system growth in laboratory assaysPhilosophical Transactions of the Royal Society B: Biological Sciences, 367
-
Gabriel Krouk, Piotr Mirowski, Yann LeCun, D. Shasha, G. Coruzzi (2010)
Predictive network modeling of the high-resolution dynamic plant transcriptome in response to nitrateGenome Biology, 11
-
H. Sakakibara, K. Takei, Naoya Hirose (2006)
Interactions between nitrogen and cytokinin in the regulation of metabolism and development.Trends in plant science, 11 9
-
G. Akhiyarova, A. Korobova, S. Veselov, G. Kudoyarova, D. Veselov (2018)
Effects of Root Cutting on Cytokinin Content in the Shoot Apex Cells of Arabidopsis PlantsMoscow University Biological Sciences Bulletin, 73
-
Shuang Wu, T. Baskin, K. Gallagher (2012)
Mechanical fixation techniques for processing and orienting delicate samples, such as the root of Arabidopsis thaliana, for light or electron microscopyNature Protocols, 7
-
L. Bai, Xiaonan Ma, Guozeng Zhang, Shufei Song, Yun Zhou, Lijie Gao, Y. Miao, Chunpeng Song (2014)
A Receptor-Like Kinase Mediates Ammonium Homeostasis and Is Important for the Polar Growth of Root Hairs in Arabidopsis[W]Plant Cell, 26
-
V. Motyka, R. Vaňková, V. Čapková, J. Petrášek, M. Kamínek, T. Schmülling (2003)
Cytokinin‐induced upregulation of cytokinin oxidase activity in tobacco includes changes in enzyme glycosylation and secretionPhysiologia Plantarum, 117
-
G. Kudoyarova, A. Korobova, G. Akhiyarova, T. Arkhipova, D. Zaytsev, E. Prinsen, N. Egutkin, S. Medvedev, S. Veselov (2014)
Accumulation of cytokinins in roots and their export to the shoots of durum wheat plants treated with the protonophore carbonyl cyanide m-chlorophenylhydrazone (CCCP)Journal of Experimental Botany, 65
-
K. Takei, Nanae Ueda, K. Aoki, T. Kuromori, T. Hirayama, K. Shinozaki, T. Yamaya, H. Sakakibara (2004)
AtIPT3 is a key determinant of nitrate-dependent cytokinin biosynthesis in Arabidopsis.Plant & cell physiology, 45 8
-
A. EI-D, A. Salama, P. Wareing (1979)
Effects of Mineral Nutrition on Endogenous Cytokinins in Plants of Sunflower (Helianthus annuus L.)Journal of Experimental Botany, 30
-
Z. Kuramshina, Y. Smirnova, R. Khairullin (2016)
Increasing Triticum aestivum tolerance to cadmium stress through endophytic strains of Bacillus subtilisRussian Journal of Plant Physiology, 63
-
K. Takei, Toru Takahashi, T. Sugiyama, T. Yamaya, H. Sakakibara (2002)
Multiple routes communicating nitrogen availability from roots to shoots: a signal transduction pathway mediated by cytokinin.Journal of experimental botany, 53 370
-
Chunyan Yu, Yihua Liu, Aidong Zhang, Sha Su, A. Yan, Linli Huang, I. Ali, Yu Liu, B. Forde, Yinbo Gan (2015)
MADS-box Transcription Factor OsMADS25 Regulates Root Development through Affection of Nitrate Accumulation in RicePLoS ONE, 10
-
Takatoshi Kiba, Toru Kudo, M. Kojima, H. Sakakibara (2011)
Hormonal control of nitrogen acquisition: roles of auxin, abscisic acid, and cytokinin.Journal of experimental botany, 62 4
-
A. Korobova, L. Vysotskaya, A. Vasinskaya, B. Kuluev, S. Veselov, G. Kudoyarova (2016)
Dependence of root biomass accumulation on the content and metabolism of cytokinins in ethylene-insensitive plantsRussian Journal of Plant Physiology, 63
-
Rongchen Wang, Xiujuan Xing, Yong Wang, Amy Tran, N. Crawford (2009)
A Genetic Screen for Nitrate Regulatory Mutants Captures the Nitrate Transporter Gene NRT1.11[W][OA]Plant Physiology, 151
-
G. Kudoyarova, I. Dodd, D. Veselov, S. Rothwell, S. Veselov (2015)
Common and specific responses to availability of mineral nutrients and water.Journal of experimental botany, 66 8
-
S. Ruffel, Gabriel Krouk, D. Ristova, D. Shasha, K. Birnbaum, G. Coruzzi (2011)
Nitrogen economics of root foraging: Transitive closure of the nitrate–cytokinin relay and distinct systemic signaling for N supply vs. demandProceedings of the National Academy of Sciences, 108
-
(2016)
Dependence of root biomass accumulation on content -
Tomoe Kamada-Nobusada, Nobue Makita, M. Kojima, H. Sakakibara (2013)
Nitrogen-Dependent Regulation of De Novo Cytokinin Biosynthesis in Rice: The Role of Glutamine Metabolism as an Additional SignalPlant and Cell Physiology, 54
- Publisher
- Springer Journals
- Copyright
- Copyright © Allerton Press, Inc. 2019
- ISSN
- 0096-3925
- eISSN
- 1934-791X
- DOI
- 10.3103/S0096392519040072
- Publisher site
- See Article on Publisher Site
Abstract
NRT1.1 nitrate transporter acts as a nitrate sensor in some plant responses. We tried to check if it may be involved in the control of cytokinin level in the plants known to be involved in the growth responses to nitrate level. The experimental objects were Arabidopsis thaliana plants of the original ecotype Columbia (Col-0) and chl1-5 mutants. The effects of the NRT1.1 gene mutation in chl1-5 plants on hormonal and growth responses to nitrogen starvation were studied. Two types of growing conditions were used: (1) plants were placed on either standard Hoagland–Arnon or modified solution, where potassium and calcium nitrates were substituted with their chlorides; (2) plants were placed on Pryanishnikov medium, where ammonium nitrate serves as the source of nitrogen and nitrogen deficiency being modeled by its withdrawal from the medium. It has been first shown that mutation of the NRT1.1 resulted in a decline in cytokinin level in the roots of chl1-5 mutants, while roots of wild type plants were longer in accordance with lower cytokinin content in them; this hormone is known to inhibit root elongation. Cytokinin content decreased in A. thaliana, Columbia ecotype, paralleled by acceleration of root elongation in response to both variants of nitrogen starvation, while chl1-5 roots responded in this way only when nitrogen was withdrawn from Pryanishnikov solution. Substitution of nitrates by chlorides in the Hoagland–Arnon solution had no effects on either chl1-5 roots’ length or cytokinin content in them. The results suggested the involvement of NRT1.1 transceptor in the control of cytokinin level and root elongation rate in the nitrate but not in ammonium starved plants, confirming the specificity of response.
Journal
Moscow University Biological Sciences Bulletin – Springer Journals
Published: Oct 26, 2019