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SRX1850437: GSM2202968: ESC RNA N 2; Mus musculus; Bisulfite-Seq
2 ILLUMINA (Illumina HiSeq 1500) runs: 63.8M spots, 6.4G bases, 3.3Gb downloads

Submitted by: NCBI (GEO)
Study: Distinct 5-methylcytosine profiles in poly(A)RNA from mouse embryonic stem cells and the brain
show Abstracthide Abstract
Background: Recent work identified and mapped a range of posttranscriptional modifications in mRNA, including methylation of the N6 and N1 positions in adenine, pseudouridylation and methylation of carbon 5 in cytosine (m5C). However, knowledge about prevalence and transcriptome-wide distribution of m5C is still extremely limited and thus, studies in different cell types, tissues and organisms are needed to gain insight into possible functions of this modification and interactions with other regulatory processes Results: We carried out an unbiased global analysis of m5C in total and nuclear poly(A)RNA of embryonic stem cells (ESCs) and brain of the mouse. We show that there are intriguing differences in these samples and cell compartments with respect to degree of methylation, functional classification of methylated transcripts and position bias within the transcript. Specifically, we observe a pronounced accumulation of m5C sites in the vicinity of the translational start codon, depletion in coding sequences and mixed patterns of enrichment in the 3’UTR. Degree and pattern of methylation distinguish transcripts modified in both ESCs and brain from those methylated in either one of the samples. Furthermore, we observed significant enrichment of m5C in the vicinity of the transcriptional start site in lncRNAs. We also present data regarding correlations between m5C and N6-methyladenosine, miRNA target sites and binding sites of RNA binding proteins. Conclusion: Our study presents the first comprehensive picture of cytosine methylation in the mouse epitranscriptome. These data can serve as a basis for future studies of function and biological significance of m5C in mRNA in mammals. Overall design: RNA was isolated from mouse embryonic stem cells (ESC) and brains as well as from the nuclei of the respective samples (in triplicates) and RNA-Bisulfite sequencing was performed.
Sample: ESC RNA N 2
SAMN05255756 • SRS1508177 • All experiments • All runs
Organism: Mus musculus
Library:
Instrument: Illumina HiSeq 1500
Strategy: Bisulfite-Seq
Source: TRANSCRIPTOMIC
Selection: RANDOM
Layout: SINGLE
Construction protocol: RNA was isolated in biological triplicates from pulverized whole brain tissue and mouse embryonic stem cells (CN) as well as from nuclei (N) of both sources using TRIzol (Sigma Aldrich) following the manufacturer’s recommendations. RNA was treated with 2U of DNase I (NEB) for 15 min at 37°C and purified using RNA Clean & Concentrator 25 Kit (Zymo Research). Isolated RNA was then subjected to two rounds of poly(A)RNA enrichment using fresh Dynabeads (Ambion) for each round. Sequencing libraries were prepared using the ScriptSeq V2 RNA-Seq Library Preparation Kit (Epicentre), purified with AMPure XP beads (Beckman Coulter) and quantified using KAPA Library Quantification Kit for Illumina platforms (KAPA Biosystems). RNA fragmenting was omitted as bisulfite treatment results in fragmentation to 100-250 nt. Libraries were multiplexed at 11 pM and sequenced on an Illuma HiSeq 1500 plattform using 100 bp single end reads
Experiment attributes:
GEO Accession: GSM2202968
Links:
Runs: 2 runs, 63.8M spots, 6.4G bases, 3.3Gb
Run# of Spots# of BasesSizePublished
SRR367499232,795,2533.3G1.7Gb2016-12-09
SRR367499331,034,7733.1G1.6Gb2016-12-09

ID:
2644352

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