Costa-Broseta, Álvaro; Castillo López Del Toro, Mª Cruz; LEON RAMOS, JOSE(MDPI AG, 2020-10)
[EN] Plant growth is the result of the coordinated photosynthesis-mediated assimilation of oxidized forms of C, N and S. Nitrate is the predominant N source in soils and its reductive assimilation requires the successive ...
Abbas, Mohamad; Berckhan, S; Rooney, DJ; Gibbs, DJ; Conde, JV; Correia, C.S.; Bassel, GW; Marín de la Rosa, Nora Alicia; Leon Ramos, Jose; Alabadí Diego, David; Blazquez Rodriguez, Miguel Angel; Holdsworth, MJ(Elsevier (Cell Press), 2015-06-01)
Successful emergence from the soil is essential for plant establishment in natural and farmed systems. It has been assumed that the absence of light in the soil is the preeminent signal perceived during early seedling ...
Mir Moreno, Ricardo; Leon Ramos, Jose(Public Library of Science, 2014-01)
The Pathogen and Circadian Controlled 1 (PCC1) gene, previously identified and further characterized as involved in defense
to pathogens and stress-induced flowering, codes for an 81-amino acid protein with a cysteine-rich ...
Mir Moreno, Ricardo; Hernandez Jorda, Maria Luisa; Abou-Mansour, Eliane; Martínez-Rivas, José Manuel; Mauch, Felix; Metraux, Jean-Pierre; Leon Ramos, Jose(Oxford University Press (OUP), 2013-08)
Pathogen and Circadian Controlled 1 (PCC1) was previously characterized as a regulator of defence against pathogens
and stress-activated transition to flowering. Plants expressing an RNA interference construct for the ...
Mir Moreno, Ricardo(Universitat Politècnica de València, 2012-05-14)
En nuestro laboratorio estamos interesados en las relaciones moleculares entre procesos de desarrollo
y procesos de estrés en plantas. Concretamente estamos interesados en qué factores pueden estar
implicadas en el ...
Costa-Broseta, Álvaro; Castillo López Del Toro, Mª Cruz; LEON RAMOS, JOSE(MDPI AG, 2021-01)
[EN] Nitric oxide (NO) is a regulator of growth, development, and stress responses in living organisms. Plant nitrate reductases (NR) catalyze the reduction of nitrate to nitrite or, alternatively, to NO. In plants, NO ...
LEON RAMOS, JOSE; Costa-Broseta, Álvaro(Blackwell Publishing, 2020-01)
[EN] After 30 years of intensive work, nitric oxide (NO) has just started to be characterized as a relevant regulatory molecule on plant development and responses to stress. Its reactivity as a free radical determines its ...
[EN] Nitric oxide (NO), which is ubiquitously present in living organisms, regulates many developmental and stress-activated processes in plants. Regulatory effects exerted by NO lies mostly in its chemical reactivity as ...
LEON RAMOS, JOSE; Costa-Broseta, Álvaro; Castillo López Del Toro, Mª Cruz(Oxford University Press, 2020-05-30)
[EN] Nitric oxide (NO) is sensed through a mechanism involving the degradation of group-VII ERF transcription factors (ERFVIIs) that is mediated by the N-degron pathway. However, the mechanisms regulating NO homeostasis ...
Costa Broseta, Álvaro(Universitat Politècnica de València, 2019-01-04)
El óxido nítrico (NO) es una molécula gaseosa altamente reactiva que regula el crecimiento y el desarrollo de las plantas así como sus respuestas de defensa. El NO se produce principalmente a partir de nitrito por las ...
Coego González, Alberto; Brizuela Cantero, Esther; Castillejo, Pablo; Ruiz, Sandra; Koncz, Csaba; del Pozo, Juan C.; Piñeiro, Manuel; Jarillo, Jose A.; Paz-Ares, Javier; Leon Ramos, Jose; TRANSPLANTA Consortium(Wiley, 2014-03)
[EN] Transcription factors (TFs) are key regulators of gene expression in all organisms. In eukaryotes, TFs are often represented by functionally redundant members of large gene families. Overexpression might prove a means ...