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SRX701642: GSM1505443: NET-seq HeLa S3 Flavopiridol; Homo sapiens; OTHER
3 ILLUMINA (NextSeq 500) runs: 485.9M spots, 30.5G bases, 17.7Gb downloads

Submitted by: Gene Expression Omnibus (GEO)
Study: Native Elongating Transcript Sequencing Reveals Human Transcriptional Activity at Nucleotide Resolution
show Abstracthide Abstract
Major features of transcription by human RNA polymerase II (Pol II) remain poorly defined due to a lack of quantitative approaches for visualizing Pol II progress at nucleotide resolution. We developed a simple and powerful approach for performing native elongating transcript sequencing (NET-seq) in human cells that globally maps strand-specific Pol II density at nucleotide resolution. NET-seq exposes a mode of antisense transcription that originates downstream and converges on transcription from the canonical promoter. Convergent transcription is associated with a distinctive chromatin configuration and is characteristic of lower-expressed genes. Integration of NET-seq with genomic footprinting data reveals stereotypic Pol II pausing coincident with transcription factor occupancy. Finally, exons retained in mature transcripts display Pol II pausing signatures that differ markedly from skipped exons, indicating an intrinsic capacity for Pol II to recognize exons with different processing fates. Overall design: 10 samples were analyzed. NET-seq data for HeLa S3 cells consisted in 2 WT biological replicates (HeLaS3_Rep1 and HeLaS3_Rep2), 1 treatment condition (HeLaS3_FP) and 1 control for the treatment condition (HeLaS3_DMSO). NET-seq data for HEK293T cells consisted in 2 WT biological replicates (HEK293T_Rep1 and HEK293T_Rep2). RNA-seq data for HeLa S3 cells consisted in the 3 cellular fractions in WT condition (HeLaS3_chromatin_RNAseq, HeLaS3_nucleoplasm_RNAseq and HeLaS3_cytoplasm_RNAseq). RNA-seq data for HEK 293T cells consisted in the cytoplasmic fraction in WT condition (HEK293T_cytoplasm_RNAseq)
Sample: NET-seq HeLa S3 Flavopiridol
SAMN03069604 • SRS701523 • All experiments • All runs
Organism: Homo sapiens
Library:
Instrument: NextSeq 500
Strategy: OTHER
Source: TRANSCRIPTOMIC
Selection: other
Layout: SINGLE
Construction protocol: Cell fractionation was performed as described in (Pandya-Jones & Black, RNA, 2009), (Bhatt et al., Cell, 2012) and based on (Wuarin & Schibler, MCB, 1994) with modifications. All subsequent steps have been conducted on ice or at 4°C and in the presence of 25 µM a-amanitin (Sigma, A2263), 50 Units SUPERaseIN (Life Technologies, AM2696) and Protease inhibitors cOmplete (Roche, 11873580001) according to manufacturer’s instructions using RNAse free equipment. All buffers have been pre-chilled on ice before use. The cell pellet corresponding to 1x107 cells was gently resuspended in 200 µl cytoplasmic lysis buffer (0.15% NP-40, 10 mM Tris-HCl pH 7.0, 150 mM NaCl). The cell lysate was incubated for 5 min on ice, layered onto 500 µl sucrose buffer (10 mM Tris-HCl pH 7.0, 150 mM NaCl, 25% sucrose) and centrifuged at 16,000 g for 10 min. The supernatant corresponding to the cytoplasmic fraction was carefully removed. For subcellular RNA-seq (described below) the cytoplasmic fraction was mixed with 3.5x volumes of RLT buffer (74104, QIAGEN). RNA purification from the cytoplasmic and following fractions is described below. Sequencing library preparation was performed as described in (Churchman & Weissman, 2012) with modifications. 3 µg of purified chromatin associated RNA was used to prepare one DNA sequencing library. 3’ ligation of RNA with a DNA linker was performed essentially as originally described, except that a DNA linker with a mixed random hexameric sequence at its 5’ end was used (new DNA linker: 5’-AppNNNNNNCTGTAGGCACCATCAAT/3ddC-3’). The ligation efficiency was monitored by ligating the new DNA linker to a 28 nt long RNA control oligo (oGAB11: 5’-AGUCACUUAGCGAUGUACACUGACUGUG-3’OH). The ligation efficiency as determined by polyacrylamide gel electrophoresis was =95%. After ligation the RNA was fragmented by partial alkaline hydrolysis essentially as originally described. The fragmentation time was adjusted so that most RNA molecules were fragmented into the range of 35 to 100 nt, size-selected and converted into cDNA. Reverse transcription was performed with the following modifications to the original protocol. First, for reverse transcription a new RT primer was used (oLSC007: 5’-Phos/ATCTCGTATGCCGTCTTCTGCTTG/iSp18/CACTCA/iSP18/ TCCGACGATCATTGATGGTGCCTACAG-3’). Second, the RT primer was applied at a 10x lower final concentration (1.9 µM instead of 10.9 µM). Next, cDNA was circularized and vectors that contained cDNA corresponding to original mature snRNAs, snoRNAs, rRNAs and mitochondrial tRNAs that were heavily sequenced in first NET-seq experiments were specifically depleted. For specific depletion, biotinylated oligos were designed that were complementary to the 3’ ends of the 19 most heavily sequenced mature RNAs of HeLa S3 cells (see Supplemental Table S1). Depletion was performed similar to the rRNA depletion approach described by (Ingolia et al., Nature Protocols, 2012). Per depletion 5.0 µl circularization reaction was used. 5.0 µl of circularization reaction was combined with 1.0 µl depletion oligo pool (10 µM of each oligo, prepared in 10 mM Tris-HCl, pH 8.0; see Supplemental Table S1), 1.0 µl 20x SSC (Life Technologies, AM9763) and 3.0 µl DNase-free H2O. Tubes were placed in a thermal cycler, denatured for 90 sec at 99°C and then annealed at 0.1°C s-1 to 37°C. Tubes were incubated for 15 min at 37°C. 37.5 µl of MyOne Streptavidin C1 DynaBeads (10 mg/ml, Life Technologies, 65001) were used per depletion reaction. Magnetic beads were washed 3x with 1x bind/wash buffer (1M NaCl, 0.5 mM EDTA, 2.5 mM Tris-HCl pH 7.0, 0.1% (vol/vol) Triton-X-100). After the last wash, magnetic beads were resuspended in 15 µl 2x bind/wash buffer (2 M NaCl, 1 mM EDTA, 5 mM Tris-HCl pH 7.0, 0.2% (vol/vol) Triton-X-100) and incubated at 37°C. 10 µl of the depletion reaction were transferred directly to the bead aliquot, immediately mixed by pipetting and incubated for 15 min at 37°C with mixing at 1000 rpm. Finally, tubes were transferred to a magnetic rack and 20 µl of supernatant were recovered and isopropanol precipitated. After depletion, the circularized DNA served as template for PCR amplification. PCR amplification was performed as originally described (Churchman & Weissman, 2012), using minimal amplification cycles. The concentration, the quality and the size distribution of final DNA libraries were assessed by Qubit 2.0 Fluorometer (Invitrogen) and 2100 Bioanalyzer (Agilent) measurements. 3’ end sequencing was performed on NextSeq 500 (SE 75 nt) and HiSeq 2000 (SE 50 nt) Illumina sequencing platforms using the following custom sequencing primer: oLSC006: 5’-TCCGACGATCATTGATGGTGCCTACAG-3’.
Links:
Runs: 3 runs, 485.9M spots, 30.5G bases, 17.7Gb
Run# of Spots# of BasesSizePublished
SRR1575932239,106,47518.2G8.8Gb2015-04-23
SRR1575933231,753,34011.6G8.3Gb2015-04-23
SRR157593415,005,897750.3M556.9Mb2015-04-23

ID:
987962

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