Chapter 27
Systematic Detection of Poly(A)
+
RNA-Interacting Proteinsand Their Differential Binding
Miha Milek and Markus Landthaler
Abstract
RNA-binding proteins are dynamic posttranscriptional regulators of gene expression. Identification of
mRNA-binding proteins in a given experimental setting is thus of great importance. We describe a
procedure to enrich for direct poly(A)+RNA protein binders by 4-thiouridine-enhanced UV cross-linking
and oligo(dT) purification. Subsequent nuclease-mediated release of RNA-binding proteins (RBPs) from
mRNA allows for detection of eluted proteins by mass spectrometry. In addition, we provide a comparative
approach to detect differences in RBP binding activity upon a biological stimulus.
Key wordsProtein–RNA interactions, RNA-binding proteins, Photoactivatable ribonucleoside, 4-
Thiouridine, UV cross-linking, Oligo(dT) affinity purification, Mass spectrometry1 Introduction
To systematically identify proteins binding to mRNA, a quantitative
approach termed mRNA interactome capture was recently pub-
lished [1, 2]. This method exploits in vivo UV cross-linking, oligo
(dT) affinity purification, and mass spectrometry to identify the
proteins directly bound to poly(A)+RNA. Since its initial publica-
tion, interactome capture has been successfully applied to other
cultured mammalian cells [3–5],Drosophilaembryos [6, 7],Cae-
norhabditis elegans[8],Plasmodium falciparum[9],Arabidopsis
thaliana[10, 11], and yeast [4, 12]. A common feature of this
approach is to stabilize the protein–RNA interactions by either
conventional (UV 254 nm) or photoactivatable ribonucleoside
(PAR)-enhanced (UV 365 nm) cross-linking. As in cross-linking
and immunoprecipitation (CLIP)-related techniques [13–16],
covalent bonds are formed at the site of direct contact between a
nucleotide in the RNA and an amino acid in the binding protein
molecule [17]. This linkage allows for stringent oligo(dT) affinity
purification under denaturing conditions and highly selective
recovery of protein–mRNA complexes.Imre Gaspar (ed.),RNA Detection: Methods and Protocols, Methods in Molecular Biology,
vol. 1649, DOI 10.1007/978-1-4939-7213-5_27,©Springer Science+Business Media LLC 2018
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