Project description:A continuous gene expression profiling of leaves at regular interval was performed to understand the changes of transcriptional program and physiological state of the rice plant under two different field conditions.

Project description:These experiments were to investigate changes in gene expression associated with maize competition for light when grown at double normal population density or under 60% shaded conditions as opposed to when maize is grown under normal field conditions.

Project description:Rice (IR64) was grown in a field plot at the International Rice Research Institute in the Phillipines. This data shows transcriptional changes happening throughout the day in leaf tissue and how warm nighttime temperature may influence those transcriptional changes.

Project description:A continuous gene expression profiling of leaves was performed during nighttime at regular interval from transplanting until harvesting to understand the changes of transcriptional program and physiological state throughout entire growth of the rice plant under natural field conditions. The uppermost fully-expanded leaf in the main stem corresponding to the 1st leaf until 83 days after transplanting (DAT) and the flag leaf from them on were sampled in two replicates at 12:00 midnight at 7- day intervals encompassing 17 different growth stages. All samples were obtained from rice plants grown in the field during the 2008 cultivation season.

Project description:A continuous gene expression profiling of leaves was performed during nighttime at regular interval from transplanting until harvesting to understand the changes of transcriptional program and physiological state throughout entire growth of the rice plant under natural field conditions.

Project description:Macronutrients are pivotal elements for proper plant growth and development. We performed microarray analysis of rice leaves under nitrogen (N), phosphorus (P), and potassium (K) deficiency conditions in paddy field to obtain a global view of gene regulations associated with plant response to essential nutrients.

Project description:These experiments were to investigate changes in gene expression associated with maize competition for light when grown at double normal population density or under 60% shaded conditions as opposed to when maize is grown under normal field conditions. Three biological replicates (collected from separate field plots) comprised of pooled samples of 4 plants from each treatment were hybridized in a rolling circle dye swap hybridization screen.

Project description:A continuous gene expression profiling of roots was performed during daytime at regular interval from transplanting until harvesting to characterize the transcriptional and physiological changes in the root system of rice throughout the entire growth under natural field conditions. Roots were sampled at daytime (12:00) at 7-day intervals encompassing 14 different growth stages. All samples were obtained from rice plants grown in the field during the 2008 cultivation season.

Project description:A continuous gene expression profiling of roots was performed during nighttime at regular interval from transplanting until harvesting to characterize the transcriptional and physiological changes in the root system of rice throughout the entire growth under natural field conditions. Roots were sampled at nighttime (24:00) at 7-day intervals encompassing 14 different growth stages. All samples were obtained from rice plants grown in the field during the 2008 cultivation season.

Project description:A IR64 variety of rice was grown in a field plot at the International Rice Research Institute (IRRI) in the Philippines. The data gained from the experiment provides information of the daily transcriptional changes occur in panicle tissue during an important developmental period under control and warm night temperatures.