Project description:We develop a method Re-Cappable-seq for determining eukaryotic transcription start sites derived from all RNA polymerases at nucleotide resolution. In particular, this method identifies the Pol-I and Pol-III TSSs, which are missing by CAGE. Applied to human A549 cell line, our method results in the identification of 33,468 and 5,269 high confidence Pol-II and non-Pol-II TSS respectively. Re-Cappable-seq identifies Pol-II TSS with higher specificity than CAGE.

Project description:The archaeal ribosome is of the eukaryotic type. Genomic and phylogenetic studies have indicated that TACK and Asgard, the closest relatives of eukaryotes, have ribosomes containing eukaryotic ribosomal proteins not found in other archaeal branches, eS25, eS26 and eS30. In our study, we investigated the case of Saccharolobus solfataricus, a crenarchaea belonging to the TACK branch, which mainly uses leaderless mRNAs. We characterized the small ribosomal subunit of S. Solfataricus bound to SD-leadered or leaderless mRNAs. Cryo-EM structures show for the first time archaeal versions of the eS25, eS26 and eS30 proteins bound to the small subunit. In addition, we identify two novel ribosomal proteins named aS33 and aS34 as well as a domain of eS6, that highlight the diversity of archaeal ribosomes. Leaderless mRNAs are bound to the small ribosomal subunit and the 5'-triphosphate group contributes to their binding. Archaeal eS26 is in the mRNA exit channel wrapped around the 3' end of ribosomal RNA as it is in eukaryotes. Its position is not compatible with an SD:antiSD duplex in the mRNA exit channel. Overall, our results suggest a role of eS26 in translation regulation and possible evolutionary routes from archaeal to eukaryotic translation.

Project description:The goal of this work was to identify transcripts in maize endosperm that are regulated by water stress and the transcription factor Vp1 Keywords: stress response Plants were grown from F1 hybrid seed produced from inbreds W22 and ACR5855, where both inbred parents contributed mutant vp1-R alleles. Florets were fertilized with pollen from either homozygous vp1 pollen, thus creating vp1/vp1/vp1 mutant endosperms, or Vp1 pollen, thus creating Vp1/vp1/vp1 endosperms. Water stress treatment was imposed by withholding irrigation at 5 days after pollination; endosperms were sampled at 10 d after pollination. The study had 2 X 2 factorial design with two genotypes and two watering treatments; there were 6 biological replicates.

Project description:Samples were received from the lab of Bertram Jacobs, experiments done by Jeff Langland (langland@asu.edu). Midlog Hela cells were infected with copenhagen strain Vaccinia Virus at MOI of 5. Viral stocks were sucrose pad purified. Incubated 2, 6, and 9 hrs post infection. viral mutants include VC2 (WT), VVdeltaE3L (e3L gene deleted), VVdelta83N(83N terminal amino acids of E3L delted, protein wont bind Z-DNA), VVdelta26C (26C terminal amino acids of E3L deleted, Protein wont bind dsRNA), VVdeltaE3l-ATV(E3L replaced with eIF2alpha homolog encoded by the salamander ATV virus. Product inhibits PKR but doesnt block IFN induction),and UV (UV inactivated WT)

Project description:Here we present high-resolution Cappable-Seq transcriptomic data on Salmonella gene expression under optimal, starvation and hydrogen peroxide conditions, and after 8 and 15 hours of co-culture with A. Castellanii.

Project description:We used a high-throughput sequencing method known as CPD-seq to map the formation of UV-induced cyclobutane pyrimidine dimers (CPD) at single nucleotide resolution in UV-irradiated yeast genomic DNA (naked DNA) in the presence or absence of cytosine methylation at CpG sites by the methyltransferase M.SssI.

Project description:Investigation of differentially regulated genes in deletion of Vp1 compared to the wild-type. VP1 is a signaling peptide. Its characterization is described in Cuevas et al 2019 ADD TITLE AND REF

Project description:Individual-nucleotide resolution UV-crosslinking and immunoprecipitation (iCLIP) combined with high-throughput sequencing was used to generate a transcriptome-wide binding map of hnRNP L. Supplementary file GSE37560_hnRNPL_crosslink_site.bed includes filtered crosslink sites of hnRNPL: combining data from all 3 experiments. 3 biological replicates of hnRNP L-specific and control (Flag) co-immunoprecipitated RNA after UV-crosslinking in HeLa cells

Project description:The transcription start sites of the Campylobacter jejuni genome was identified by Cappable-seq, which captures primary transcripts by capping the 5´ triphosphorylated end

Project description:If the genome contains outlier sequences extraordinarily sensitive to environmental agents, these would be sentinels for monitoring personal carcinogen exposure and might drive direct changes in cell physiology rather than acting through rare mutations. New methods, adductSeq and freqSeq, provided statistical resolution to quantify rare lesions at single-base resolution across the genome. Primary human melanocytes, but not fibroblasts, carried spontaneous apurinic sites and TG sequence lesions more frequently than UV-induced cyclobutane pyrimidine dimers (CPDs). UV exposure revealed hyperhotspots acquiring CPDs up to 170 fold more frequently than the genomic average; these sites were more prevalent in melanocytes. Hyperhotspots were disproportionately located near genes, particularly for RNA-binding proteins, with the most-recurrent hyperhotspots at a fixed position within two motifs: one occurring at ETS1 transcription factor binding sites, known to be UV targets, and at sites of mTOR/TOP-tract translation regulation; the second occurring at A2-15TTCTY, which developed "dark CPDs" after UV exposure, repaired CPDs slowly, and had accumulated CPDs prior to the experiment. Motif locations active as hyperhotspots differed between cell types. Melanocyte CPD hyperhotspots aligned precisely with recurrent UV signature mutations in individual gene promoters of melanomas and with known cancer drivers. At sunburn levels of UV exposure, every cell would have a hyperhotspot CPD in each of the ~20 targeted cell pathways, making hyperhotspots act as epigenetic marks. Purpose: These experiments searched for genomic sites in human primary fibroblasts and melanocytes that are extraordinarily sensitive to DNA damage, primarily cyclobutane pyrimidine dimers (CPDs) induced by UVC or UVB radiation. They separately detected abasic sites and other spontaneous DNA damage when present.