Project description:RNAs extracted from affinity enriched L1 RNPs were subjected to next-gen RNA-seq

Project description:Long Interspersed Nuclear Element-1 (LINE-1, L1) is a mobile genetic element active in human genomes. L1-encoded ORF1 and ORF2 proteins bind L1 RNAs, forming ribonucleoproteins (RNPs). These RNPs interact with diverse host proteins, some repressive and others required for the L1 lifecycle. Using differential affinity purifications, quantitative mass spectrometry, and next generation RNA sequencing, we have characterized the proteins and nucleic acids associated with distinctive, enzymatically active L1 macromolecular complexes. Among them, we describe a cytoplasmic intermediate that we hypothesize to be the canonical ORF1p/ORF2p/L1-RNA-containing RNP, and we describe a nuclear population containing ORF2p, but lacking ORF1p, which likely contains host factors participating in target-primed reverse transcription.

Project description:This SuperSeries is composed of the following subset Series: GSE13653: Affinity purification of ribosomes and associated RNAs from stress-treated cells GSE13654: Affinity purification of ribosomes and associated RNAs using tagged Rpl16a and Rpl16b Refer to individual Series

Project description:In this study, we systematically identified RNAs associated with ribosomes. To identify ribosome associated RNAs, C-terminal ZZ-tagged Rpl16a or Rpl16b, expressed under control of thier native promoter, were affinity purified from whole cell extracts of cultures grown to mid-log phase in minimal medium. Extracts were incubated with immunoglobulin G (IgG) coupled microbeads, washed, and ribosomes were eluted by tobacco etch virus (TEV) protease treatment. We performed two biological replicates with each protein and analyzed the RNA content using oligo microarrays. Total RNA isolated from extracts of cells expressing Rpl16a-ZZ or Rpl16b-ZZ (input) and from the affinity-purified ribosomes was reverse transcribed with oligo(dT) primers. cDNA was labeled with Cy3 and Cy5 fluorescent dyes, respectively, and competitively hybridized to yeast oligo microarrays. Alternatively, RNA was isolated from sucrose gradient fractions containing 60S subunits, 80S monosomes and polysomes. Here, we performed four biological replicates. Analysis was done with oligo microarrays as described above. A strain or line experiment design type assays differences between multiple strains, cultivars, serovars, isolates, lines from organisms of a single species. strain_or_line_design

Project description:To identify RNAs specifically associated with Gis2p, cells expressing TAP-tagged Gis2 or the wild-type strain BY4741 (mock control) were grown to mid-log phase in rich medium and harvested by centrifugation. RNA affinity isolations were essentially performed as described (Gerber et al. 2004 PLoS Biol.; see associated protocol 526). In brief, TAP-tagged protein were captured from cell extracts with IgG coupled agarose beads (Sigma) and released by incubation with a site-specific protease (AcTEV, Sigma). from the extract (input) and from the affinity isolates was purified with the RNeasy Mini/ Micro Kit (Qiagen). RNAs were reverse transcribed using a mixture of oligo-dT and random nonamer oligos in the presence of amino-allyl dUTP/dNTP mixture. cDNAs were fluorescently labeled and hybridized on yeast oligo microarrays over night at 42 degrees in formamide-based hybridization buffer. Set of arrays that are part of repeated experiments Genotype: TAP-tagged Gis2 expressing or wild-type strain BY4741 (wt/gis2) Biological Replicate

Project description:In this study, we systematically identified ribosome associated RNAs. To identify ribosome associated RNAs, C-terminal ZZ-tagged Rpl16a, expressed under control of its native promoter, was affinity purified from whole cell extracts of cultures grown to mid-log phase. Extracts were incubated with immunoglobulin G (IgG) coupled microbeads, washed, and ribosomes were eluted by tobacco etch virus (TEV) protease treatment. To analyze how changes in steady-state mRNA levels (= transcriptome) are related to changes of respective messages in the translatome, total RNA and ribosome associated RNA from stress-treated and untreated cells were analyzed with yeast cDNA microarrays. To achieve this, fluorescently labeled (Cy5) cDNA was prepared from total RNA isolated from yeast cell extracts and from affinity-purified ribosomes, and each sample was mixed with differentially labeled (Cy3) cDNA prepared from a common reference RNA pool, and competitively hybridized on yeast cDNA microarrays. We performed five independent experiments with untreated cells grown in minimal medium (t=0 reference) and three or more independent biological replicates of treated cells. Altogether, we sampled the cell's response to five different "stress treatments" that were applied for relatively short periods of time (10 or 20 minutes) to avoid secondary effects triggered by transcriptional adaption. A stimulus or stress experiment design type is where that tests response of an organism(s) to stress/stimulus. e.g. osmotic stress, behavioral treatment Time: Duration of the treatment Growth Condition: Type of treatment stimulus_or_stress_design

Project description:To identify RNAs specifically associated with Slf1p and Sro9p, cells expressing TAP-tagged Slf1, Sro9 or Fpr1 (negative control) were grown to mid-log phase in synthetic complete medium and harvested by centrifugation. RNA affinity isolations were essentially performed as described (Gerber et al. 2004 PLoS Biol.). In brief, TAP-tagged protein were captured from cell extracts with IgG coupled agarose beads (Sigma) and released by incubation with a site-specific protease (AcTEV, Sigma). from the extract (input) and from the affinity isolates was purified with the RNeasy Mini/ Micro Kit (Qiagen). RNAs were reverse transcribed using a mixture of oligo-dT and random nonamer oligos in the presence of amino-allyl dUTP/dNTP mixture. cDNAs were fluorescently labeled and hybridized on yeast oligo microarrays over night at 42 degrees in formamide-based hybridization buffer. Set of arrays that are part of repeated experiments

Project description:To identify RNAs specifically associated with potential RBPs, yeast cells expressing TAP-tagged RBP or the wild-type strain BY4741 (mock control) were grown to mid-log phase in rich medium and harvested by centrifugation. RNA affinity isolations were essentially performed as described (Gerber et al. 2004 PLoS Biol.; see protocol). In brief, TAP-tagged protein were captured from cell extracts with IgG coupled agarose beads (Sigma) and released by incubation with a site-specific protease (AcTEV, Sigma). from the extract (input) and from the affinity isolates was purified with the RNeasy Mini/ Micro Kit (Qiagen). RNAs were reverse transcribed using a mixture of oligo-dT and random nonamer oligos in the presence of amino-allyl dUTP/dNTP mixture. cDNAs were fluorescently labeled and hybridized on yeast oligo microarrays over night at 42 degrees in formamide-based hybridization buffer. Antigenic peptide used in IP: TAP-tag An all pairs experiment design type is where all labeled extracts are compared to every other labeled extract.

Project description:To identify RNAs specifically associated with Slf1p and Sro9p, cells expressing TAP-tagged Slf1, Sro9 or Fpr1 (negative control) were grown to mid-log phase in synthetic complete medium and harvested by centrifugation. RNA affinity isolations were essentially performed as described (Gerber et al. 2004 PLoS Biol.). In brief, TAP-tagged protein were captured from cell extracts with IgG coupled agarose beads (Sigma) and released by incubation with a site-specific protease (AcTEV, Sigma). from the extract (input) and from the affinity isolates was purified with the RNeasy Mini/ Micro Kit (Qiagen). RNAs were reverse transcribed using a mixture of oligo-dT and random nonamer oligos in the presence of amino-allyl dUTP/dNTP mixture. cDNAs were fluorescently labeled and hybridized on yeast oligo microarrays over night at 42 degrees in formamide-based hybridization buffer.

Project description:In this study, we systematically identified RNAs associated with ribosomes. To identify ribosome associated RNAs, C-terminal ZZ-tagged Rpl16a or Rpl16b, expressed under control of thier native promoter, were affinity purified from whole cell extracts of cultures grown to mid-log phase in minimal medium. Extracts were incubated with immunoglobulin G (IgG) coupled microbeads, washed, and ribosomes were eluted by tobacco etch virus (TEV) protease treatment. We performed two biological replicates with each protein and analyzed the RNA content using oligo microarrays. Total RNA isolated from extracts of cells expressing Rpl16a-ZZ or Rpl16b-ZZ (input) and from the affinity-purified ribosomes was reverse transcribed with oligo(dT) primers. cDNA was labeled with Cy3 and Cy5 fluorescent dyes, respectively, and competitively hybridized to yeast oligo microarrays. Alternatively, RNA was isolated from sucrose gradient fractions containing 60S subunits, 80S monosomes and polysomes. Here, we performed four biological replicates. Analysis was done with oligo microarrays as described above. A strain or line experiment design type assays differences between multiple strains, cultivars, serovars, isolates, lines from organisms of a single species.