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SRX4616841: GSM3358228: BY4741_5cap_rep2; Saccharomyces cerevisiae; OTHER
1 ILLUMINA (Illumina HiSeq 2000) run: 42.3M spots, 1.8G bases, 2.1Gb downloads

Submitted by: NCBI (GEO)
Study: Chromatin-dependent cryptic promoters encode alternative protein isoforms in yeast
show Abstracthide Abstract
Cryptic transcription is widespread and generates a heterogeneous group of RNA molecules of unknown function. To improve our understanding of cryptic transcription, we investigated their transcription start site usage, chromatin organization and post-transcriptional consequences in Saccharomyces cerevisiae. We show that transcription start sites of chromatin-dependent internal cryptic transcripts resemble those of protein coding genes in terms of DNA sequence, directionality and chromatin accessibility. We define the 5' and 3' boundaries of cryptic transcripts and show that, contrary to RNA degradation-dependent ones , they often overlap with the end of the gene thereby using the canonical polyadenylation site and associate to polyribosomes. In fact, we show that chromatin-dependent cryptic transcripts can be recognized by ribosomes and may produce truncated polypeptides from downstream, in-frame start codons. Our work suggests that a significant fraction of chromatin-dependent internal cryptic promoters are in fact alternative truncated mRNA isoforms. The expression of these chromatin-dependent isoforms is conserved from yeast to human expanding the functional consequences of cryptic transcription and proteome complexity. Overall design: We identify 5' transcription start sites applying our 5'cap -sequencing approach as previously described (Pelechano et al. Nat Protocols. 2016 PMID: 26820793). To measue polyribosome association we applied the 5'cap -sequencing approach to either total RNA extracts or polyribosome-associated fraction after ultracentrifugation in sucrose gradient. We performed 2 biologically independent experiments.
Sample: BY4741_5cap_rep2
SAMN09927492 • SRS3719823 • All experiments • All runs
Library:
Instrument: Illumina HiSeq 2000
Strategy: OTHER
Source: TRANSCRIPTOMIC
Selection: other
Layout: SINGLE
Construction protocol: For 5'cap-sequencing samples RNA was extracted from yeast cells using standar phenol procedure using glass beads and a FastPrep-24 shaker. The amount of RNA was quantified in a Nanodrop 2000 Spectrophotometer (Thermo Scientific) and RNA integrity was checked by agarose gel electrophoresis. For polyribosome analysis, cells resuspended on Lysis buffer were transferred to pre-cooled 1.5mL screw-tubes with 300 µL glass beads and supplemented with 100 units of RNAse inhibitor (RNAsin plus, Promega). Cells were lysed using a FastPrep-24 shaker (6.0m/s for 15 seconds, MP biomedicals). Supernatant was recovered after 5 minutes centrifugation at 2300g, and cleared with an additional centrifugation at 5900g. Extracts were supplemented with glycerol (5% final v/v) and stored at -70C. 10-50% sucrose gradients were prepared with a Gradient Master BIOCOMP (Nycomed Pharma). Sucrose solution contains 20 mM Tris-HCl, pH 8, 140 mM KCl, 5 mM MgCl2 , 0.5 mM DTT, 100 µg/mL cycloheximide and sucrose (from 10 to 50 %). Cleared cell extracts were ultracentifuged at 34400 rpm for 2 hours 40 minutes at 4C using a C-1000 XP centrifuge with SW40 rotor (Beckman Coulter). Gradient UV absorption at 254 nm was measured and selected fractions were selected for 5'cap library preparation (5µg purified RNA per sample). Polyribosome fraction (i.e., 2n+) was compared with the total extract prior to fractionation). 5'cap-libraries was performed as previously described (Pelechano et al. Nat Protocols. 2016 PMID: 26820793). In brief, 10µg total RNA was treated with Calf intestinal alkaline phosphatase (NEB)to remove 5′P from fragmented and non-capped molecules. After purification, mRNA caps were removed using 3.75 units of Cap-Clip (Biozyme) exposing a 5'P in those molecules previously capped. Samples were ligated overnight at 16ºC with a DNA/RNA oligo (rP5_RND: TTTCCCTACACGACGCTCTTCCGATrCrUrNrNrNrNrNrNrNrN ) using T4 RNA ligase 1 (New England Biolabs). RNA integrity after ligation was assayed by agarose gel electrophoresis and polyA RNA was purified using oligo dT magnetic beads. After this, ligated mRNA was fragmented at 80ºC for 5 min in the presence of RNA fragmentation buffer (40 mM Tris-acetate, pH 8.1, 100 mM KOAc, 30 mM MgOAc). Ligated RNA was subjected to reverse transcription using random hexamers with Superscript II (Life Technologies) with the following program: 10 min at 25ºC, 50 min at 42ºC and heat inactivated for 15 min at 72ºC. Second strand cDNA synthesis was performed by a single PCR cycle (1 min at 98ºC; 2 min at 50ºC and 15 min at 72ºC) using Phusion High-Fidelity PCR Master Mix (New England Biolabs). A biotinilated oligo (BioNotI-P5-PET: [Btn]TATAGCGGCCGCAATGATACGGCGACCACCGAGATCTACACTCTTTCCCTAC ACGACGCTCTTCCGATCT) was added during the generation of the second cDNA strand. Double stranded cDNA was purified using Ampure XP (Beckman Coulter) or HighPrep (Magbio) beads. After the samples were bound to streptavidin coated magnetic beads (M-280 Dynabeads, Life Technologies) and subjected to standard Illumina end-repair, dA addition and adapter ligation was performed as previously described. Libraries were enriched by PCR and sequenced in an Illumina HiSeq 2000 instrument.
Experiment attributes:
GEO Accession: GSM3358228
Links:
Runs: 1 run, 42.3M spots, 1.8G bases, 2.1Gb
Run# of Spots# of BasesSizePublished
SRR776121842,325,7291.8G2.1Gb2019-10-02

ID:
6238756

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