Nitrate in 2020: Thirty years from transport to signaling networks

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dc.catalogadordfo
dc.contributor.authorVidal, Elena A.
dc.contributor.authorAlvarez, José M.
dc.contributor.authorAraus, Viviana
dc.contributor.authorRiveras Hernández, Eleodoro Javier
dc.contributor.authorBrooks, Matthew D.
dc.contributor.authorKrouk, Gabriel
dc.contributor.authorRuffel, Sandrine
dc.contributor.authorLejay, Laurence
dc.contributor.authorCrawford, Nigel M.
dc.contributor.authorCoruzzi, Gloria M.
dc.contributor.authorGutiérrez Ilabaca, Rodrigo Antonio
dc.date.accessioned2024-01-29T20:04:34Z
dc.date.available2024-01-29T20:04:34Z
dc.date.issued2020
dc.description.abstractNitrogen (N) is an essential macronutrient for plants and a major limiting factor for plant growth and crop production. Nitrate is the main source of N available to plants in agricultural soils and in many natural environments. Sustaining agricultural productivity is of paramount importance in the current scenario of increasing world population, diversification of crop uses, and climate change. Plant productivity for major crops around the world, however, is still supported by excess application of N-rich fertilizers with detrimental economic and environmental impacts. Thus, understanding how plants regulate nitrate uptake and metabolism is key for developing new crops with enhanced N use efficiency and to cope with future world food demands. The study of plant responses to nitrate has gained considerable interest over the last 30 years. This review provides an overview of key findings in nitrate research, spanning biochemistry, molecular genetics, genomics, and systems biology. We discuss how we have reached our current view of nitrate transport, local and systemic nitrate sensing/signaling, and the regulatory networks underlying nitrate-controlled outputs in plants. We hope this summary will serve not only as a timeline and information repository but also as a baseline to define outstanding questions for future research.
dc.fechaingreso.objetodigital2025-03-13
dc.fuente.origenScopus
dc.identifier.doi10.1105/tpc.19.00748
dc.identifier.eissn1532298X
dc.identifier.issn10404651
dc.identifier.pubmedidMEDLINE:32169959
dc.identifier.scopusidSCOPUS_ID:85085123539
dc.identifier.urihttp://www.plantcell.org/content/plantcell/32/7/2094.full.pdf
dc.identifier.urihttps://repositorio.uc.cl/handle/11534/81047
dc.identifier.wosidWOS:000545974100015
dc.information.autorucFacultad de Ciencias Biológicas; Riveras Hernandez Eleodoro Javier; S/I; 197816
dc.information.autorucFacultad de Ciencias Biológicas; Gutierrez Ilabaca Rodrigo Antonio; 0000-0002-5961-5005; 86782
dc.language.isoen
dc.nota.accesocontenido parcial
dc.pagina.final2119
dc.pagina.inicio2094
dc.revistaPlant Cell
dc.rightsacceso restringido
dc.subject.ddc600
dc.subject.deweyTecnologíaes_ES
dc.subject.ods02 Zero Hunger
dc.subject.odspa02 Hambre cero
dc.titleNitrate in 2020: Thirty years from transport to signaling networks
dc.typeartículo de revisión
dc.volumen32
sipa.codpersvinculados197816
sipa.codpersvinculados86782
sipa.trazabilidadScopus;12-10-2021
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