Add to ORKGPlants developed plasticity to environmental conditions, such as temperature, that allows their adaptation. A change in ambient temperature leads to changes in the transcriptome in plants. Here we study changes in the splicing of Arabidopsis thaliana using an RNA-seq approach. Plants were growing in short day conditions (8h light/16h dark) at 16°C for 5 weeks and then moved to 25°C. We monitor changes in the transcriptome in the time, material was harvested 24h, 3 days and 5 days after the temperature change
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants developed plasticity to environmental conditions, such as temperature, that allows their adap...
Plants developed a plasticity to eviromental conditions, such as temperaure, that allows their adapt...
Plants developed a plasticity to environmental conditions, such as temperature, that allows their ad...
Plants adjust their development and architecture to small variations in ambient temperature. In a ti...
Plants adjust their development and architecture to small variations in ambient temperature. In a ti...
Alternative splicing (AS) gives rise to multiple mRNA isoforms from the same gene, providing possibi...
Plants have adapted to tolerate and survive constantly changing environmental conditions by re-progr...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants have evolved numerous molecular strategies to cope with perturbations in environmental temper...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants developed plasticity to environmental conditions, such as temperature, that allows their adap...
Plants developed a plasticity to eviromental conditions, such as temperaure, that allows their adapt...
Plants developed a plasticity to environmental conditions, such as temperature, that allows their ad...
Plants adjust their development and architecture to small variations in ambient temperature. In a ti...
Plants adjust their development and architecture to small variations in ambient temperature. In a ti...
Alternative splicing (AS) gives rise to multiple mRNA isoforms from the same gene, providing possibi...
Plants have adapted to tolerate and survive constantly changing environmental conditions by re-progr...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants have evolved numerous molecular strategies to cope with perturbations in environmental temper...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...
Plants must reprogram gene expression to adapt constantly changing environmental temperatures. With ...