Project description:Small RNAs, including microRNAs (miRNAs), phased secondary small interfering RNAs (phasiRNA), and heterochromatic small interfering RNAs (hc-siRNA) are an essential component of gene regulation. To establish a broad potato small RNA atlas, we constructed an expression atlas of leaves, flowers, roots, and tubers of Desiree and Eva, which are commercially important potato (Solanum tuberosum) cultivars. All small RNAs identified were observed to be conserved between both cultivars, supporting the hypothesis that small RNAs have a low evolutionary rate and are mostly conserved between lineages. However, we also found that a few miRNAs showed differential accumulation between the two potato cultivars, and that hc-siRNAs have a tissue specific expression. We further identified dozens of reproductive and non-reproductive phasiRNAs originating from coding and noncoding regions that appeared to exhibit tissue-specific expression. Together, this study provides an extensive small RNA profiling of different potato tissues that might be used as a resource for future investigations.

Project description:Plant microRNAs (miRNAs) have emerged as important regulators in developmental processes and stress responses in plants. To identify the wound-responsive miRNAs in the leaves of sweet potato, small RNA deep sequencing was conducted on unwounded and wounded leaves (30 min). Total RNAs were isolated for library construction and analyzed by RNA-sequencing via Illumina Genome Analyzer IIx platform. About 16 million total reads were obtained for each sample.

Project description:Small RNAs deep sequencing from sweet potato in wounding stress

Project description:Small RNAs, including microRNAs (miRNAs), phased secondary small interfering RNAs (phasiRNA), and heterochromatic small interfering RNAs (hc-siRNA) are an essential component of gene regulation. To establish a broad potato small RNA atlas, we constructed an expression atlas of leaves, flowers, roots, and tubers of Desiree and Eva, which are commercially important potato (Solanum tuberosum) cultivars. All small RNAs identified were observed to be conserved between both cultivars, supporting the hypothesis that small RNAs have a low evolutionary rate and are mostly conserved between lineages. However, we also found that a few miRNAs showed differential accumulation between the two potato cultivars, and that hc-siRNAs have a tissue specific expression. We further identified dozens of reproductive and non-reproductive phasiRNAs originating from coding and noncoding regions that appeared to exhibit tissue-specific expression. Together, this study provides an extensive small RNA profiling of different potato tissues that might be used as a resource for future investigations.

Project description:An atlas of small non-coding RNAs in Human Preimplantation Development [Small-Seq]

Project description:Identification of all expressed transcripts in a sequenced complex genome is technically challenging, but essential for systems biology and genome analysis. We used the transcriptional profiling technology called ‘massively parallel signature sequencing’ (MPSS) to develop a comprehensive expression atlas of rice (Oryza sativa cv Nipponbare). A total of 46,971,553 mRNA transcripts from 22 libraries, and 2,953,855 small RNAs from three libraries were sequenced. The data demonstrated widespread transcription throughout the genome, including expression for up to 25,500 annotated genes and antisense expression for nearly 9,000 annotated genes. An additional set of ~15,000 mRNA signatures mapped to unannotated genomic regions. The majority of the small RNA data represented lower abundance small-interfering RNAs (siRNAs) that match repetitive sequences, intergenic regions, and genes. Among these, numerous clusters of highly-regulated small RNAs were readily observed. We developed a genome browser (http://mpss.udel.edu/rice) for public access to the transcriptional profiling data for this important crop plant. Keywords: MPSS, mRNA, small RNA, transcriptome, rice

Project description:Small RNAs (sRNAs) play important roles in plants encountering stress environments. However, limited research has been conducted on the sRNAs involved in plant wound responses. To identify potential roles for the wounding-related sRNAs, sRNA deep sequencing was used. After leaves were wounded for 0.5 hour, total RNAs from unwounded and wounded leaves were isolated for sRNA library construction. The Illumina platform was used to sequence sRNA libraries. About 12 million sequence reads were obtained for each sample.

Project description:An atlas of small non-coding RNAs in Human Preimplantation Development

Project description:An atlas of small non-coding RNAs in Human Preimplantation Development [RNA-seq]

Project description:Small RNAs in monocots