Project description:Rice inflorescence meristem (IM) development is critical for panicle size and grain production. The transition from SAM to IM is an important development stage in rice. Here we report the application of ChIP-seq technology for profiling of H3K4me3 and H3K27me3 modification in SAM, IM, SDG711 RNAi IM and jmj703 IM which affect panicle size, respectively, and besides, RNA-seq technology for detecting gene expression diversity betwwen SAM, IM and SDG711 RNAi IM. We found that genome-wide H3K27me3 modification vary between SAM and IM, and thouands of genes lost H3K27me3 in SDG711 and jmj703. Also, we found H3K27me3/H3K4me3 ratio was an important factor for the differential expression of many genes during the transition. Differential expressed genes were found between SAM and IM, 711RNAi and WT, repectively. Many important genes involved in IM activity were repressed by SDG711-mediated H3K27me3 and some of which’s expressions were mis-regulated in SDG711 RNAi.

Project description:Rice inflorescence meristem (IM) development is critical for panicle size and grain production. The transition from SAM to IM is an important development stage in rice. Here we report the application of ChIP-seq technology for profiling of H3K4me3 and H3K27me3 modification in SAM, IM, SDG711 RNAi IM and jmj703 IM which affect panicle size, respectively, and besides, RNA-seq technology for detecting gene expression diversity betwwen SAM, IM and SDG711 RNAi IM. We found that genome-wide H3K27me3 modification vary between SAM and IM, and thouands of genes lost H3K27me3 in SDG711 and jmj703. Also, we found H3K27me3/H3K4me3 ratio was an important factor for the differential expression of many genes during the transition. Differential expressed genes were found between SAM and IM, 711RNAi and WT, repectively. Many important genes involved in IM activity were repressed by SDG711-mediated H3K27me3 and some of which’s expressions were mis-regulated in SDG711 RNAi. Genome-wide mapping of two histone modifications (H3K4me3 and H3K27me3) in SAM, IM, SDG711 RNAi IM and jmj703 IM, and mRNA transcripts in SAM, IM, SDG711 RNAi IM.

Project description:Plants initially undergo a period of vegetative development, in which it produces leaves from shoot apical meristem (SAM) and roots from the root apical meristem. Later in development, the SAM undergoes a change in fate and enters reproductive development called as floral transition, producing flowers and seeds. Our understanding of the molecular and genetic mechanisms that underlie reproductive development in plants has increased tremendously in the past decade, essentially through the work on Arabidopsis. In this study, we have analyzed the spatial and temporal gene expression in various tissues/organs and developmental stages of rice using microarray technology to identify the genes differentially expressed during various stages of reproductive development. Experiment Overall Design: Various rice tissues/organs (seedling root, mature leaf and Y leaf) and stages of reproductive (panicle and seed) development were used for RNA extraction and hybridization on Affymetrix microarrays. Three biological replicates of each sample were used for microarray analysis. We sought to obtain developmental and temporal gene expression profiles at each stage to identify the differentially expressed genes. Different stages of panicle and seed development have been categorized according to panicle length and days after pollination, respectively, based on landmark developmental events as follows: up to 0.5 mm, shoot apical meristem and rachis meristem (SAM); 0-3 cm, floral transition and floral organ development (P1); 3-10 cm, meiotic stage (P2 and P3); 10-15 cm, young microspore stage (P4); 15-22 cm, vacuolated pollen stage (P5); 22-30 cm, mature pollen stage (P6); 0-2 dap, early globular embryo (S1); 3-4 dap, middle and late globular embryo (S2); 5-10 dap, embryo morphogenesis (S3); 11-20 dap, embryo maturation (S4); 21-29, dormancy and desiccation tolerance (S5). These stage specifications are approximations based on information from Itoh et al., 2005, Plant Cell Physiol, 46, 23-47.

Project description:Expression profilling of 79 BILs and their parents Koshihikari and Habataki were investigated by using the rice 44K-agilent microarray. RNAs were collected from the inflorescence meristem at the secondary panicle branch developmental stage. Fluorescent signals in the array were scanned and feature intensities extracted and measured by the Feature Extraction software (Agilent Technologies). The resulting data were normalized using the Variance-stabilizing normalization (VSN) algorithm (Huber et al., 2002). For determination of expression markers, the normalized data were statistically analyzed using rank product statistics as described by Breitling et al. (2004) with a P-value of 0.05.

Project description:To comprehend the profile of rice gene expression at reproductive stage under high temperature, Agilent 4M-CM-^W44k rice oligo microarray experiments were carried out using rice panicle of developmental stage 7-9 at 0min, 20min, 1hr, 2hr, 4hr, and 8hr after the treatment of 40 degree centigrade, and the significantly expressed genes mainly involved in transcriptional regulation, transport, cellular homeostasis, and stress response were identified. Among them, the predominant transcription factor gene families were Hsf, NAC, AP2/ERF, WRKY, MYB, and C2H2. KMC analysis discovered the time-dependent gene expression pattern under heat. The results of motif co-occurrence on the promoters of genes from an early up-regulated cluster showed the important roles of GCC box, HSE, ABRE, and CE3, and unraveled the possible cross-talk mechanism during heating. The response model central to ROS combined with transcriptome data indicated the great importance to maintain ROS balance in heat response in rice panicle and the wide existing of cross-talks. Heat shock induced gene expression in rice panicle of developmental stage 7-9 was measured at 0min, 20min, 1hr, 2hr, 4hr, and 8hr after the treatment of 40 degree centigrade in plant growth chamber. Two independent replicate experiments were performed at each time point.

Project description:To comprehend the profile of rice gene expression at reproductive stage under high temperature, Agilent 4×44k rice oligo microarray experiments were carried out using rice panicle of developmental stage 7-9 at 0min, 20min, 1hr, 2hr, 4hr, and 8hr after the treatment of 40 degree centigrade, and the significantly expressed genes mainly involved in transcriptional regulation, transport, cellular homeostasis, and stress response were identified. Among them, the predominant transcription factor gene families were Hsf, NAC, AP2/ERF, WRKY, MYB, and C2H2. KMC analysis discovered the time-dependent gene expression pattern under heat. The results of motif co-occurrence on the promoters of genes from an early up-regulated cluster showed the important roles of GCC box, HSE, ABRE, and CE3, and unraveled the possible cross-talk mechanism during heating. The response model central to ROS combined with transcriptome data indicated the great importance to maintain ROS balance in heat response in rice panicle and the wide existing of cross-talks.

Project description:Although the pattern of lateral organ formation from apical meristems establishes species-specific plant architecture, the positional information that confers cell fate to cells as they transit to the meristem flanks where they differentiate, remains largely unknown. We have combined fluorescence-activated cell sorting and RNA-seq to characterise the cell-type-specific transcriptome at the earliest developmental time-point of lateral organ formation using DORNRÖSCHEN-LIKE::GFP to mark founder-cell populations at the periphery of the inflorescence meristem (IM) in apetala1 cauliflower double mutants, which overproliferate IMs. Within these founder-cells, floral primordium identity genes are upregulated and stem-cell identity markers are downregulated. The transcriptional network of differentially expressed genes supports the hypothesis that lateral organ founder-cell specification involves the creation of polarity from the centre to the periphery of the IM and the establishment of a boundary from surrounding cells, consistent with bract initiation. In contrast to the established paradigm that sites of auxin response maxima pre-pattern lateral organ initiation in the IM, only subtle transcriptional reprogramming within the global auxin network was observed, suggesting that auxin response might play a minor role in the earliest stages of lateral floral initiation.

Project description:Plant hormones interact with each other and regulate gene expression to control plant growth and development. To understand the complex network, accumulation of comprehensive and integrative data of gene expression and hormone concentration is important. Using microarray, global gene expression profile was analyzed to compare with plant hormone concentration in 14 parts of rice at reproductive stage. The microarray data are used to construct public rice hormonome-transcriptome database UniVIO (http://univio.psc.riken.jp/). We analyzed flower, panicle branch,internode I, node I and II, and some leaves of rice plant at the heading satage. Total 35 samples were analyzed in this experiment.

Project description:Transcriptomic changes during early developmental stages of reproductive meristems in Arabidopsis thaliana. Through laser microdissection coupled to RNA sequencing, we provide precise transcriptomic analysis of the inflorescence meristem, floral meristem and of the flower at the beginning of organ differentiation. Transcript abundance quantification and differential expression (DE) analyses were performed using the Bowtie/Tophat/Cufflinks pipeline (BTC) (Trapnell et al., 2012) with the RefSeq Arabidopsis annotation. The BTC pipeline identified 46 genes as differentially expressed between IM and FM, 171 genes differentially expressed between FM and ST3 and 178 genes differentially expressed between IM and ST3. The obtained data turned out to be solid since they are highly consistent with established knowledge but they also allowed the identification of new high profile candidate genes as well as new insights into potential regulatory networks underlying the formation of these reproductive structures. We provide a web interface for easy interrogation of these unique datasets.

Project description:The young panicles 2 cm length were used for expression analysis in well watered control and drought stressed treatment. The panicle samples from biological replicates of six rice varieties were obtained in three independent experiments. The expression profiles were generated using Affymetrix rice genome arrays.