Project description:Oryza sativa cv. Nipponbare was engineered to over-express a barley alanine aminotransferase (alaAT) gene using the promoter (OsANT1) from a rice aldehyde dehydrogenase gene that expresses in roots. We are using biotechnology to improve the nitrogen use efficiency of rice by over-expressing alaAT in a tissue specific (root) manner. The AlaAT enzyme is a reversible aminotransferase that is linked to both C and N metabolism since it uses pyruvate plus glutamate to produce alanine and 2-oxoglutarate, and visa versa. Wildtype rice (Nipponbare) and three independent OsANT1:HvAlaAT rice transgenic lines (AGR1/7, AGR1/8 and AGR3/8) were grown hydroponically with 5mM NH4+ as the nitrogen source, to the reproductive stage. RNA samples were taken at active tillering, maximum tillering and end-of-tillering stages from root and shoot, at mid-day of the plants' day/night cycle. The RNA from root and shoot at maxiumum tillering was used for microarray analysis. Please read Beatty et al., 2009, Plant Biotechnology Journal 7, pp562-576 for further details..

Project description:Oryza sativa cv. Nipponbare was engineered to over-express a barley alanine aminotransferase (alaAT) gene using the promoter (OsANT1) from a rice aldehyde dehydrogenase gene that expresses in roots. We use biotechnology to improve the nitrogen use efficiency of rice by over-expressing alaAT in a tissue specific (root) manner. The AlaAT enzyme is a reversible aminotransferase that is linked to both C and N metabolism since it uses pyruvate plus glutamate to produce alanine and 2-oxoglutarate, and visa versa.

Project description:Oryza sativa cv. Nipponbare was engineered to over-express a barley alanine aminotransferase (alaAT) gene using the promoter (OsANT1) from a rice aldehyde dehydrogenase gene that expresses in roots. We are using biotechnology to improve the nitrogen use efficiency of rice by over-expressing alaAT in a tissue specific (root) manner. The AlaAT enzyme is a reversible aminotransferase that is linked to both C and N metabolism since it uses pyruvate plus glutamate to produce alanine and 2-oxoglutarate, and visa versa.

Project description:Nitrogen-efficient rice over-expressing alanine aminotransferase

Project description:Heterosis is a phenomenon that hybrids exhibit superior performance relative to the parental phenotypes. However, most studies focused on aboveground agronomic traits. Thus, systematic investigation on root heterosis, particularly at reproductive stage in rice is needed to be carried out. The recent advent of RNA sequencing technology (RNA-Seq) provides an opportunity to conduct in-depth transcript profiling for heterosis study.Using the Illumina HiSeq 2000 platform, the root transcriptome of a super-hybrid rice Xieyou9308 and its parents were analyzed at tillering and heading stages. Totally, 829 and 4186 differentially expressed genes between the hybrid and its parents (DGHP) were detected at tillering stage and heading stage, respectively. In this study, the DGHP were significantly enriched in pathways such as carbohydrate metabolism and plant hormones signal transduction at heading stage, and most of the key genes involved in the two pathways were up-regulated in the hybrid. Several significant DGHP that could be mapped to QTLs for yield and root traits were also involved in carbohydrate metabolism and plant hormones signal transduction pathways. The candidate transcripts may underlie the heterosis and significantly contribute to root development and yield production. Root mRNA profiles of a super-hybrid rice Xieyou 9308 and its parents at tillering and heading stages were generated by deep sequencing, in duplicate, on Illumina Hiseq 2000 platform.

Project description:Rice is highly sensitive to drought, and the effect of drought may vary with the different genotypes and development stages. Genome-wide gene expression profiling was used as the initial point to dissect molecular genetic mechanism of this complex trait and provide valuable information for the improvement of drought tolerance in rice. Affymetrix rice genome array containing 48,564 japonica and 1,260 indica sequences was used to analyze the gene expression pattern of rice exposed to drought stress. The transcriptome from leaf, root, and young panicle at three developmental stages was comparatively analyzed combined with bioinformatics exploring drought stress related cis-elements. In this study, the gene expression patterns across six tissues including leaves and roots at tillering stage and panicle elongation stage, leaves and young panicle at booting stage ( TL: leaves at tillering stage; TR: roots at tillering stage; PL: leaves at panicle elongation stage; PR: roots at panicle elongation stage; BP: young panicle at booting stage; BL: leaves at booting stage) were characterized by using the Affymetrix rice microarray platform based on a drought tolerant rice line derived from IR64.

Project description:Heterosis is a phenomenon that hybrids exhibit superior performance relative to the parental phenotypes. However, most studies focused on aboveground agronomic traits. Thus, systematic investigation on root heterosis, particularly at reproductive stage in rice is needed to be carried out. The recent advent of RNA sequencing technology (RNA-Seq) provides an opportunity to conduct in-depth transcript profiling for heterosis study.Using the Illumina HiSeq 2000 platform, the root transcriptome of a super-hybrid rice Xieyou9308 and its parents were analyzed at tillering and heading stages. Totally, 829 and 4186 differentially expressed genes between the hybrid and its parents (DGHP) were detected at tillering stage and heading stage, respectively. In this study, the DGHP were significantly enriched in pathways such as carbohydrate metabolism and plant hormones signal transduction at heading stage, and most of the key genes involved in the two pathways were up-regulated in the hybrid. Several significant DGHP that could be mapped to QTLs for yield and root traits were also involved in carbohydrate metabolism and plant hormones signal transduction pathways. The candidate transcripts may underlie the heterosis and significantly contribute to root development and yield production.

Project description:Rice grassy stunt disease is mainly observed in South, Southeast and East Asia, and caused by Rice grassy stunt virus (RGSV). Specific symptom appeared on RGSV infected rice plant is excess tillering. To guess how to induce excess tillering in RGSV infected plant, we analyzed the global gene expression changes in RGSV infected plants. Keywords: virus infection, disease response

Project description:This study aims to deal with a comparative proteome analysis of shoot and root tissues of contrasting phosphorus (P) responsive rice genotypes (Pusa-44 and its near-isogenic line (NIL)-23 harboring Pup1 QTL). Proteins were isolated from shoot and root tissues collected from 45-day-old rice plants grown hydroponically in PusaRicH medium with P (16ppm, +P) or without P (0 ppm, -P) under controlled environmental conditions. Following protein quantification using the Bradford method, and quality check using 1D SDS-PAGE, trypsin was used for in-solution digestion and Nano ACQUITY UPLC-MS/MS was used to separate and identify peptides. This study aimed at deciphering the molecular aspect of Pup1 QTL in P-starvation stress tolerance in rice.

Project description:Nitrogen-efficient rice over-expressing alanine aminotransferase at three different N concentrations