Project description:We present the draft genome of Nitrospirae bacterium Nbg-4 as a representative of this clade and couple this to in situ protein expression under sulfate-enriched and sulfate-depleted conditions in rice paddy soil. The proteins were extracted from the soil and analysed via LC-MS/MS measurements.
Project description:Time-course transcriptional profiling of rice leaf in the field in 2009. This experiment was performed to validate the results of field transcriptomic modeling. Using 461 field transcriptome data obtained in 2008 (GSE36040; GSE36042; GSE36043; GSE36044; GSE18685) and the corresponding meteorologicla dara, we perfomred statistical modeling of transcriptome. Rice leaves (Norin8 vs. osgi) in the paddy field were collected on Aug. 10 - 12, 24 - 25, 31, Oct. 8 - 9 in 2009.
Project description:Rice grown in paddy fields prefers to use ammonium ions as a major source of inorganic nitrogen. Glutamine synthetase (GS) catalyzes the conversion of ammonium ions to glutamine. In three cytosolic GS in rice, OsGS1;1 has the critical role for normal growth and grain filling. To understand a role of GS1;1, we performed transcriptional profiling of wild type Nipponbare and GS1;1 mutant plants in seedling using the Agilent Rice Oligo Microarray.
Project description:Rice anthers at the anthesis stage were collected from the wild type (Dongjin cultivar) and far1-1 mutant grown in the paddy field located in the KyungHee University. The collected samples were immediately frozen with liquid nitrogen. RNA from these samples was extracted with RNeasy plant mini kit according to the manufacture's documentation.
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:Diurnal time-course transcriptional profiling of rice leaf in the field comparing a circadian clock related mutant, osgi, with the wild-type (WT). Two sample experiments (WT vs. osgi) : 13 time-points (2h interval), 8 replicates (2leaves from individual plants x 4stages(each staggered by tranplanting dates with one week interval)): sampled on Aug. 12th 7:00-Aug.13th 7:00 (2008) at a paddy field in Tsukuba (Japan)
