Insights into molecular links and transcription networks integrating drought stress and nitrogen signaling
- PMID: 37974513
- DOI: 10.1111/nph.19403
Insights into molecular links and transcription networks integrating drought stress and nitrogen signaling
Abstract
Drought and the availability of nitrate, the predominant source of nitrogen (N) in agriculture, are major factors limiting plant growth and crop productivity. The dissection of the transcriptional networks' components integrating droght stress and nitrate responses provides valuable insights into how plants effectively balance stress response with growth programs. Recent evidence in Arabidopsis thaliana indicates that transcription factors (TFs) involved in abscisic acid (ABA) signaling affect N metabolism and nitrate responses, and reciprocally, components of nitrate signaling might affect ABA and drought gene responses. Advances in understanding regulatory circuits of nitrate and drought crosstalk in plant tissues empower targeted genetic modifications to enhance plant development and stress resistance, critical traits for optimizing crop yield and promoting sustainable agriculture.
Keywords: drought; nitrate; plant growth; transcriptional networks; transcriptome.
© 2023 The Authors New Phytologist © 2023 New Phytologist Foundation.
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References
-
- Alvarez JM, Moyano TC, Zhang T, Gras DE, Herrera FJ, Araus V, O'Brien JA, Carrillo L, Medina J, Vicente-Carbajosa J et al. 2019. Local changes in chromatin accessibility and transcriptional networks underlying the nitrate response in Arabidopsis roots. Molecular Plant 12: 1545-1560.
-
- Alvarez JM, Riveras E, Vidal EA, Gras DE, Contreras-López O, Tamayo KP, Aceituno F, Gómez I, Ruffel S, Lejay L et al. 2014. Systems approach identifies TGA 1 and TGA 4 transcription factors as important regulatory components of the nitrate response of Arabidopsis thaliana roots. The Plant Journal 80: 1-13.
-
- Alvarez JM, Schinke AL, Brooks MD, Pasquino A, Leonelli L, Varala K, Safi A, Krouk G, Krapp A, Coruzzi GM. 2020. Transient genome-wide interactions of the master transcription factor NLP7 initiate a rapid nitrogen-response cascade. Nature Communications 11: 1157.
-
- Araus V, Swift J, Alvarez JM, Henry A, Coruzzi GM. 2020. A balancing act: how plants integrate nitrogen and water signals. Journal of Experimental Botany 71: 4442-4451.
-
- Bargmann BO, Marshall-Colon A, Efroni I, Ruffel S, Birnbaum KD, Coruzzi GM, Krouk G. 2013. TARGET: a transient transformation system for genome-wide transcription factor target discovery. Molecular Plant 6: 978-980.
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