AbstractAlthough responses to UV stress have been characterised at system and cellular levels, the dynamics of the nuclear proteome triggered in this situation are still unknown, despite its essential role in regulating gene expression and in last term plant physiology. To fill this gap, we characterised the variations in the nuclear proteome after 2h and 16h (8h/day) of UV irradiation by using state-of-the-art mass spectrometry-based shotgun proteomics methods combined with novel bioinformatics workflows that were employed in the manuscript entitled “The variations in the nuclear proteome reveal new transcription factors and mechanisms involved in UV stress response in Pinus radiata” (Pascual et al., 2016) [1]. We employed in-gel digestion...
Crop-plant-yield safety is jeopardized by temperature stress caused by the global climate change. To...
International audienceIonising radiation (IR) affects cellular and tissue function. However, the bio...
Phytochromes phyA and phyB, and cryptochromes cry1 and cry2 are the fourth main photoreceptors that ...
Although responses to UV stress have been characterised at system and cellular levels, the dynamics ...
AbstractAlthough responses to UV stress have been characterised at system and cellular levels, the d...
Globally expected changes in environmental conditions, especially the increase of UV irradiation, ne...
Rhododendron chrysanthum (Rhododendron chrysanthum Pall.), an alpine plant, has developed UV-B resis...
<p>This data set provides the detailed information of total identified proteins in <em>P. cathayan...
Plants respond to UV stress by producing antioxidant molecules and by altering their metabolism thro...
<div><p>Ultraviolet (UV) irradiation is a common form of DNA damage that can cause pyrimidine dimers...
Plants respond to ultraviolet stress inducing a self-defence through the regulation of specific gene...
Needle differentiation is a very complex process that leads to the formation of a mature photosynthe...
Genomic and proteomic techniques provide the opportunity to investigate plant response to ionising r...
The ubiquitin system is crucial for the development and fitness of higher plants. De-etiolation, dur...
<p>The integrative omics approach is crucial to identify the molecular mechanisms underlying high-te...
Crop-plant-yield safety is jeopardized by temperature stress caused by the global climate change. To...
International audienceIonising radiation (IR) affects cellular and tissue function. However, the bio...
Phytochromes phyA and phyB, and cryptochromes cry1 and cry2 are the fourth main photoreceptors that ...
Although responses to UV stress have been characterised at system and cellular levels, the dynamics ...
AbstractAlthough responses to UV stress have been characterised at system and cellular levels, the d...
Globally expected changes in environmental conditions, especially the increase of UV irradiation, ne...
Rhododendron chrysanthum (Rhododendron chrysanthum Pall.), an alpine plant, has developed UV-B resis...
<p>This data set provides the detailed information of total identified proteins in <em>P. cathayan...
Plants respond to UV stress by producing antioxidant molecules and by altering their metabolism thro...
<div><p>Ultraviolet (UV) irradiation is a common form of DNA damage that can cause pyrimidine dimers...
Plants respond to ultraviolet stress inducing a self-defence through the regulation of specific gene...
Needle differentiation is a very complex process that leads to the formation of a mature photosynthe...
Genomic and proteomic techniques provide the opportunity to investigate plant response to ionising r...
The ubiquitin system is crucial for the development and fitness of higher plants. De-etiolation, dur...
<p>The integrative omics approach is crucial to identify the molecular mechanisms underlying high-te...
Crop-plant-yield safety is jeopardized by temperature stress caused by the global climate change. To...
International audienceIonising radiation (IR) affects cellular and tissue function. However, the bio...
Phytochromes phyA and phyB, and cryptochromes cry1 and cry2 are the fourth main photoreceptors that ...