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Series GSE48888

Query DataSets for GSE48888

Status

Public on Jul 15, 2013

Title

Global signatures of protein binding on structural RNAs in Saccharomyces cerevisiae

Organism

Saccharomyces cerevisiae

Experiment type

Expression profiling by high throughput sequencing

Summary

Protein binding is essential to the transport, decay and regulation of almost all RNA molecules. However, the structural preference of protein binding on RNAs and their cellelar functions and dynamics upon changing environmental condictions are poorly understood. Here, we integrated various high-throughput data and introduced a computational framework to describe the global interactions between RNA binding proteins (RBPs) and structured RNAs in yeast at single-nucleotide resolution. We found that on average, in terms of percent total lengths, ~15% of mRNA untranslated regions (UTRs), ~37% of canonical ncRNAs and ~11% of long ncRNA (lncRNAs) are bound by proteins. The RBP binding sites, in general, tend to occur at single-stranded loops, with evolutionarily conserved signatures, and often facilitate a specific RNA structure conformation in vivo. We found that four nucleotide modifications of tRNA are significantly associated with RBP binding. We also identified various structural motifs bound by RBPs in the UTRs of mRNAs, associated with localization, degradation and stress responces. Moreover, we identified >200 novel lncRNAs bound by RBPs, and about half of them contain conserved secondary structures. We present the first ensemble pattern of RBP binding sites in the structured noncoding regions of a eukaryotic genome, emphasizing their structural context and cellular functions.

Overall design

Duplicate gPAR-CLIP libraries were sequenced from yeast strains for each of three conditions: log-phase growth, growth after 2 hour glucose starvation, and growth after 2 hour nitrogen starvation. polyA RNAs were isolated for all conditions.
Total RNA were isolated from log phase growth conditions. Sucrose gradient fractionation was performed: some RNAs were isolated from the "light" fraction (lighter than 40S ribosome) and some from the "heavy" fraction. gPAR-CLIP libraries were used to determine regions of RNA bound by proteins.

Contributor(s)

Freeberg MA, Han T, Yang Y, Lu Z

Citation(s)

24369346

Submission date

Jul 15, 2013

Last update date

May 15, 2019

Contact name

Mallory Ann Freeberg

E-mail(s)

mfreebe2@jhu.edu

Organization name

Johns Hopkins University

Department

Department of Biology

Street address

3400 N Charles St

City

Baltimore

State/province

ZIP/Postal code

21211

Country

USA

Platforms (1)

GPL13821

Illumina HiSeq 2000 (Saccharomyces cerevisiae)

Samples (10)

More...

GSM1186342	SD, total RNA, light fraction, gPAR-CLIP, Replicate 1
GSM1186343	SD, total RNA, light fraction, gPAR-CLIP, Replicate 2
GSM1186344	SD, total RNA, heavy fraction, gPAR-CLIP, Replicate 1

Relations

BioProject

PRJNA212138

SRA

SRP027402

Download family	Format
SOFT formatted family file(s)	SOFT
MINiML formatted family file(s)	MINiML
Series Matrix File(s)	TXT

Supplementary file	Size	Download	File type/resource
GSE48888_glucose_polyA_light_gPAR-CLIP_cluster.bed.gz	298.5 Kb	(ftp)(http)	BED
GSE48888_nitrogen_polyA_light_gPAR-CLIP_cluster.bed.gz	348.5 Kb	(ftp)(http)	BED
GSE48888_polyA_light_gPAR-CLIP_cluster.bed.gz	538.1 Kb	(ftp)(http)	BED
GSE48888_total_heavy_gPAR-CLIP_cluster.bed.gz	989 b	(ftp)(http)	BED
GSE48888_total_light_gPAR-CLIP_cluster.bed.gz	461.2 Kb	(ftp)(http)	BED
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