Project description:Existing methods for detecting RNA intermediates resulting from exonuclease degradation are low-throughput and laborious. In addition, mapping the 3’ ends of RNA molecules to the genome after high-throughput sequencing is challenging, particularly if the 3’ ends contain posttranscriptional modifications. To address these problems, we developed EnD-Seq, a high-throughput sequencing protocol that preserves the 3’ end of RNA molecules, and AppEnD, a computational method for analyzing high-throughput sequencing data. Together these allow determination of the 3’ ends of RNA molecules, including nontemplated additions. Applying EnD-Seq and AppEnD to histone mRNAs revealed that a significant fraction of cytoplasmic histone mRNAs end in one or two uridines, which have replaced the 1-2 nts at the 3’ end of mature histone mRNA maintaining the length of the histone transcripts. 

Project description:We developed a customized RNA-Seq strategy to identify the 3' termini of degradation intermediates of histone mRNAs. Using this strategy, we identified two types of oligouridylated degradation intermediates: RNAs ending at different sites of the 3' side of the stemloop that resulted from initial degradation by 3'hExo and intermediates near the stop codon and within the coding region. We established a method for identifying degradation intermediates for replication-depdendent histone mRNAs. Histone mRNAs are present in large amounts in S-phase cells. Inhibition of DNA replication results in a rapid degradation of histone mRNA. We developed an approach to selectively amplify the 3' ends of histone mRNA molecules, including degradation intermediates, which we then sequenced. Using a novel bioinformatics platform we identified degradation intermediates including many that had untemplated nts added to the 3' end. We identified a large variety of degradation intermediates that contained oligo(U) tails. We were able to deduce the 3' to 5' pathway of histone mRNA degradation. RNA-seq with a custom 3' linker: The samples analyzed included two biological replicates of RNAs before and 20 min after HU treatment (samples 1, 26, 27) capped RNAs from cells treated with HU for 20 min (samples 2,3,16,17) RNA isolated from polyribosomes 20 min after HU treatment, from untreated cells (samples 4-9) and cells treated with pactamycin for 5 min (samples 10-15); from cells in which the exosome subunit Pml/SC100 had been knocked down (samples 22-23) and cells treated with the control siRNA (samples 20-21). Please note that, for Sample 2 and Sample 3, the sequencer was unable to recover both ends in the mate pairs for these two sequencing runs, but we chose to use these data anyway since the reads that were recovered included the 3' linker that we used to determine the presence of untemplated additions.

Project description:We developed a customized RNA-Seq strategy to identify the 3' termini of degradation intermediates of histone mRNAs. Using this strategy, we identified two types of oligouridylated degradation intermediates: RNAs ending at different sites of the 3' side of the stemloop that resulted from initial degradation by 3'hExo and intermediates near the stop codon and within the coding region. We established a method for identifying degradation intermediates for replication-depdendent histone mRNAs. Histone mRNAs are present in large amounts in S-phase cells. Inhibition of DNA replication results in a rapid degradation of histone mRNA. We developed an approach to selectively amplify the 3' ends of histone mRNA molecules, including degradation intermediates, which we then sequenced. Using a novel bioinformatics platform we identified degradation intermediates including many that had untemplated nts added to the 3' end. We identified a large variety of degradation intermediates that contained oligo(U) tails. We were able to deduce the 3' to 5' pathway of histone mRNA degradation.

Project description:RNA-Seq provides an effective way to annotate and measure the transcriptome, but the combination of cost, analysis and end-mapping challenges has limited its adoption for high-throughput quantitation and annotation. Here, we present an integrated experimental and computational suite for transcriptome annotation and quantitation based on the sequencing of mRNA ends. It consists of: a novel, simple, one-step, strategy 5' RNA-Seq; an optimized library construction method for strand-specific 3' RNA-seq that reduces costs and time; and a complete computational analysis toolkit. We demonstrate the power and versatility of our approach to study the transcriptome of LPS stimulation in mouse dendritic cells, promoter structure of the TCRb locus in mouse T cells, and gene expression in circadian cycles in Drosophila. Our platform provides a comprehensive solution for high-throughput, cost-effective transcriptome quantification and end annotation. A study of 5' and 3' end RNA sequencing methods

Project description:RNA-Seq provides an effective way to annotate and measure the transcriptome, but the combination of cost, analysis and end-mapping challenges has limited its adoption for high-throughput quantitation and annotation. Here, we present an integrated experimental and computational suite for transcriptome annotation and quantitation based on the sequencing of mRNA ends. It consists of: a novel, simple, one-step, strategy 5' RNA-Seq; an optimized library construction method for strand-specific 3' RNA-seq that reduces costs and time; and a complete computational analysis toolkit. We demonstrate the power and versatility of our approach to study the transcriptome of LPS stimulation in mouse dendritic cells, promoter structure of the TCRb locus in mouse T cells, and gene expression in circadian cycles in Drosophila. Our platform provides a comprehensive solution for high-throughput, cost-effective transcriptome quantification and end annotation.

Project description:Using high-throughput sequencing of histone mRNAs and degradation intermediates, we find that knockdown of TUT7 reduces both the uridylation at the 3’ end as well as uridylation pattern at the 3’ end, and only had a small effect on the uridylation in the stemloop uridylation of the major during histone mRNA degradation. Knockdown of 3’ hEXO also altered the uridylation of histone mRNAs, revealing a dynamic equilibrium between 3’ hEXO digestion and TUT7 uridylation, suggesting that TUT7 and 3’ hExo function together in trimming and uridylating histone mRNAs.

Project description:Purpose:We aimed to characterize genome-widely the miRNA population and phasiRNA-generating genes/loci in litchi (Litchi chinensis). Multiple high throughput sequencing strategies, including sRNA sequencing, parallel analysis of RNA ends (PARE) sequencing, and strand-specific RNA-seq, were applied in combination with thorough bioinformatics analyses using a variety of computational methods.

Project description:We introduce high-throughput and massive paired-end mapping (PEM), a large-scale genome sequencing method to identify SVs 3 kb or larger that combines the rescue and capture of paired-ends of 3 kb fragments, massive 454 Sequencing, and a computational approach to map DNA reads onto a reference genome. PEM was used to map SVs in an African and putatively European individual and identified shared and divergent SVs relative to the reference genome. Overall, we fine-mapped more than 1000 SVs and documented that the number of SVs among humans is much larger than initially hypothesized; many of the SVs potentially affect gene function. The breakpoint junction sequences of more than 200 SVs were deduced with a novel pooling strategy and computational analysis. Array-CGH was used for validation. Keywords: array CGH 2 samples were analyzed with 8 different Nimblegen chips (385k); thus ~30M probes were used to interrogate copy number variants in NA15510 (using NA18505 as control) at high resolution.

Project description:EnD-Seq and AppEnD: Sequencing 3' ends to identify non-templated tails and degradation intermediates

Project description:EnD-Seq and AppEnD: Sequencing 3' ends to identify non-templated tails and degradation intermediates