Project description:In the current study we did microarray of upland rice cultivar Nagina22 for drought stress at reproductive stage (panicle initiation) and analyzed drought stress responsive genes. We have taken flag leaf for our study as it is most essential organ for photosynthesis in rice. Normal watering Vs Drought Stress Flag leaf of Control (Three biological replicates) plant of Nagina22: C1, C2, C3 Flag leaf of drought stressed (Three biological replicates) plant of Nagina 22: S1, S2, S3

Project description:Sorghum plants (Btx623 background) were grown in a glasshouse between March and May 2014. At panicle emergence, two biological replicates of flag leaf tissue and two biological replicates of emerging panicle tissue were harvested and used for RNA extraction. Btx623 is a non-shattering Sorghum accession, thus in the future we would like to add additional samples from accessions with varying degrees of seed shattering. This dataset will be useful for future comparisons of 1) shattering individuals at these stages and 2) additional flowering developmental time points in a variety of accessions (http://www.rnaseqforthenextgeneration.org/profiles/carrie-thurber.html#research)

Project description:Three rice major tissues, namely flag leaf, shoot and panicle, were involved in this study. Each tissue had two kinds stress treatment, drought and high salinity, in 3 different time courses. For drought treated samples, an additional water recovery was applied. Each experiment had three replicates. Keywords: Comparison of gene expression in three tissues with stress treatment and without treatment To globally elucidate potential genes involved in drought and high-salinity stresses responses in rice, an oligomer microarray covering 37,132 genes including cDNA or EST supported and putative genes was applied to study the expression profiling of shoot, flag leaf, and panicle under drought or high-salinity treatment. Three rice major tissues, namely flag leaf, shoot and panicle, were involved in this study. Each tissue had two kinds stress treatment, drought and high salinity, in 3 different time courses. For drought treated samples, an additional water recovery was applied. Each experiment had three replicates.

Project description:Expression in seven tissues from Oryza sativa L. ssp japonica Nipponbare was profiled using RNA-sequencing: callus, leaf, root, seed, shoot, panicle before flowering, and panicle after flowering. The original experiment examined gene expression in the seven tissues, and utilized the data both to compare gene expression patterns between retrogenes and their parents and to compare patterns of expression divergence between RNA-based duplicates and DNA-based duplicates Note: All samples in SRA were assigned the same sample accession (DRS000668). This is incorrect as there are different samples, hence “Source Name” was replaced with new values. Comment[ENA_SAMPLE] contains the original SRA sample accessions.

Project description:Three rice major tissues, namely flag leaf, shoot and panicle, were involved in this study. Each tissue had two kinds stress treatment, drought and high salinity, in 3 different time courses. For drought treated samples, an additional water recovery was applied. Each experiment had three replicates. Keywords: Comparison of gene expression in three tissues with stress treatment and without treatment

Project description:m6A is a ubiquitous RNA modification in eukaryotes. Transcriptome-wide m6A patterns in Arabidopsis have been assayed recently. However, m6A differential patterns among organs have not been well characterized. The goal of the study is to comprehensively analyze m6A patterns of numerous types of RNAs, the relationship between transcript level and m6A methylation extent, and m6A differential patterns among organs in Arabidopsis. In total, 18 libraries were sequneced. For the 3 organs: leaf, flower and root, each organ has mRNA-Seq, m6A-Seq and Input sequenced. And each sequence has 2 replicats.

Project description:Lead (Pb) is a pervasive heavy metal with multi-organ toxicity. However, the molecular mechanisms of Pb-induced neurotoxicity are not fully understood. The dynamics of N6-methylademine (m6A) is an emerging regulatory mechanism for gene expression, which is closely related to nervous system diseases. To elucidate the association between m6A modification and Pb-mediated neurotoxicity, primary hippocampal neurons exposed to 5 μM Pb for 48 h were used as the paradigm neurotoxic model in this study. According to the results, Pb exposure reprogrammed the transcription spectrum. Simultaneously, Pb exposure remodeled the transcriptome-wide distribution of m6A while disrupting the overall level of m6A in cellular transcripts. United analysis of MeRIP-Seq and RNA-Seq was applied to further identify the core genes whose expression levels are regulated by m6A in the process of lead-induced nerve injury. GO and KEGG analysis unveiled that the modified transcripts were overrepresented by the PI3K-AKT pathway. Mechanically, we elucidated the regulatory role of the methyltransferase like3 (METTL3) in the process of lead-induced neurotoxicity and the downregulation of the PI3K-AKT pathway. In conclusion, our novel findings shed new light on the functional roles of m6A modification in the expressional alternations of downstream transcripts caused by lead, providing an innovative molecular basis to explain Pb neurotoxicity.

Project description:The profiling was conducted with the Rice 3'-Tiling 135k Microarray designed from 31,439 genes deposited at IRGSP, RAP2 database (http://rapdb.lab.nig.ac.jp). In this research, an array of 31,439 rice genes was used to elucidate gene expression in leaf and panicles of non-transgenic and HMB4 over-expression line. The analyses show that transgenic rice induces early flowering due to an enhancement of stress response. A total of 20 chips were used for microarray. Total RNAs were extracted from rice leaf and panicle. Experiments were duplicated.

Project description:In this study, we focused on a super rice variety, WFYT025, which is widely used in China. Therefore, we took the flag leaves of WFYT025 and its two parents for high-throughput transcriptome sequencing, trying to find some genes related to photosynthesis or transpiration and development of seeds. The aim of our study is (1) we investigated the length, width, and leaf area of flag leaves for WFYT025 and its parents. MPH and HPH were estimated for the heterosis of flag leaf. (2) We selected the flag leaves of hybrid rice WFYT025 and its parents for transcriptome sequencing, the first day and the tenth days after flowering in the environment of early rice and middle rice, respectively. (3) we referred to further investigate the gene regulatory network. Several major sub-networks were found to represents interactions among genes with similar expression profiles via gene regulatory network analysis.

Project description:For tree crops, shortening juvenile phase is a vital strategy for early flowering that ensure to bear fruits in advance to enhance breeding efficiency. In walnut (Juglans regia L.), it usually takes 3-5 years for blooming, but the early flowering (EF) walnut can even flower in a year after planted. The juvenile phase of EF walnut is shorter than the late flowering (LF) walnut, which is more propitious to breeding efficiency. In this study, using RNA sequencing (RNA-seq) and microRNA-seq, we profiled transcriptome-wide identification of gene expression and microRNAs between EF and LF walnuts.