Project description:Cordillera rice re-sequencing

Project description:Abstract We have re-analysed publicly available mass spectrometry (MS) data sets enriched for phosphopeptides from Asian rice (Oryza sativa). In total we have identified, 15522 phosphosites on Serine, Threonine and Tyrosine residues on rice proteins. The data has been loaded into UniProtKB, enabling researchers to visualise the sites alongside other stored data on rice proteins, including structural models from AlphaFold2, and into PeptideAtlas, enabling visualisation of the source evidence for each site, including scores and source mass spectra. We identified sequence motifs for phosphosites, and link motifs to enrichment of different biological processes, indicating different downstream regulation caused by different kinase groups. We cross-referenced phosphosites against single amino acid variation (SAAV) data sourced from the rice 3000 genomes data, to identify SAAVs within or proximal to phosphosites that could cause loss of a particular site in a given rice variety. The data was further clustered to identify groups of sites with similar patterns across rice family groups, allowing us to identify sites highly conserved in Japonica, but mostly absent in, for example, Aus type rice varieties - known to have different responses to drought. These resources can assist rice researchers to discover alleles with significantly different functional effects across rice varieties.

Project description:Tetraploid rice re-sequencing and transcriptome

Project description:IDS1 is a rice AP2-type transcription factor with transcritpional repression activity. To understand how IDS1 regulate rice salt tolerance, the ChIP-seq experiments were performed to identify IDS1 binding site in globle genomic level. The two-weeks-old rice seedlings were lysated and sonificated and IDS1-DNA complexes were immune precipated with myc-antibody and protein A beads. The purified DNA samples were used to construct sequencing libraries and sequenced with Illumina. The data were then analyzed with bio-informatic tools.

Project description:There are multiple types of small RNAs that may affect rice pollen’s development. To investigate the small RNA populations’ change during rice pollen development, 13-40 nt RNA were extracted from uninucleate microspores (UNM) and bicellular pollen (BCP) for high throughput sequencing. Together with our laboratory’s previous published rice tricellular pollen (TCP) small RNA sequencing data (GSM722128), sharp increase of tRNA fragments (tRFs) in BCP stage and a slightly decreased tRFs in TCP were found. Among which, new lengths of tRFs were also discovered. Our work accomplished the knowledge about tRFs in rice pollen development.

Project description:Poncirus trifoliata re-sequencing data

Project description:Re-sequencing of upland rice varieties in Africa

Project description:We generated a genome-wide map of 5hmC in rice panicle using a sensitive chemical labeling method to capture DNA fragments with 5hmC modification, followed by NGS sequencing. We showed that the 5hmC peaks distribution is non-random, about 52% 5hmC was located in gene bodies, 25% in intergenic regions, 11% in promoters, and 12% in immediate downstream. It was significantly enriched in heterochromatic regions of chromosomes 4 and 10, and especially located around TE genes. Combined with RNA-seq transcriptome data, we found that the gene-specific alterations of 5hmC can result in gene activation or repression, suggesting a potential role for 5hmC in gene regulation. From the compared distribution analysis among super-hybrid rice cultivars LYP9, and its parental lines 93-11 and PA64s, we investigated the cultivar-specificity of both the global levels and locus-specific distribution of 5hmC. Our data provided an overview of the genomic distribution of 5hmC in rice panicle. This will set the stage for further functional characterization of this novel DNA modification and its biosynthesis in rice. Examination of 5hmC modifications in rice panicle This submission represents ChIP-Seq component of study.

Project description:High-order rice chromatin contains numerous interactions among DNA, RNA and protein to regulate critical biological processes in various aspects of rice life. We developed an effective method for mapping histone-mediated chromatin associated RNA-DNA interactions, followed by paired-end-tag sequencing (ChRD-PET) in rice. With H3K4me3 ChRD-PET, H3 ChRD-PET and RNase H treated H3K4me3 ChRD-PET, we present a highly comprehensive map of RNA and chromatin interactions around promoters in rice MH63. Through integrating ChIA-PET (published data), ChRD-PET and ssDRIP-seq data analysis, we demonstrated the function of RNAs-chromatin interactions in different level. We also conducted ATAC-seq and integrative analysis uncovered the relationship of epigenetic modifications and ChRD-PET interactions. Our findings firstly revealed the map and features of RNAs-chromatin interactions in rice.

Project description:RNAseq profiling of seeds and 7 time points during germination in rice under aerobic and anerobic conditions, as well as following re-oxygenation.