Transcriptomics

Dataset Information

360

The mRNA-bound proteome and its global occupancy profile on protein-coding transcripts [PAR-CLIP]


ABSTRACT: Protein-RNA interactions are fundamental to core biological processes, such as mRNA splicing, localization, degradation and translation. We developed a photoreactive nucleotide-enhanced UV crosslinking and oligo(dT) purification approach to identify the mRNA-bound proteome using quantitative proteomics and to display the protein occupancy on mRNA transcripts by next-generation sequencing. Application to a human embryonic kidney cell line identified close to 800 proteins. Close to one third of these proteins, were neither previously annotated nor could be functionally predicted to bind RNA. Protein occupancy profiling provides a transcriptome-wide catalog of potential cis-regulatory regions on mammalian mRNAs and showed that large stretches in 3' UTRs can be contacted by the mRNA-bound proteome, with numerous putative binding sites in regions harboring disease-associated nucleotide polymorphisms. Our observations indicate the presence of a large number of unexpected mRNA-binders with novel molecular functions participating in combinatorial post-transcriptional gene-expression networks. PARCLIP was performed as in Hafner et al. 2010 Cell 141, 129–141, with HEK293 cell lines stably expressing HIS/FLAG/HA-tagged ALKBH5, C17orf85, C22orf28, CAPRIN1, and ZC3H7B. We used 4-thiouridine (4SU) to enhance the crosslink and generated two PAR-CLIP cDNA libraries per protein.

ORGANISM(S): Homo sapiens  

SUBMITTER: Markus Landthaler  

PROVIDER: E-GEOD-38201 | ArrayExpress | 2012-06-01

SECONDARY ACCESSION(S): GSE38201SRP013363PRJNA167443

REPOSITORIES: GEO, ArrayExpress, ENA

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Protein-RNA interactions are fundamental to core biological processes, such as mRNA splicing, localization, degradation, and translation. We developed a photoreactive nucleotide-enhanced UV crosslinking and oligo(dT) purification approach to identify the mRNA-bound proteome using quantitative proteomics and to display the protein occupancy on mRNA transcripts by next-generation sequencing. Application to a human embryonic kidney cell line identified close to 800 proteins. To our knowledge, nearl  ...[more]

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