Chapter 5
Axon-TRAP-RiboTag: Affinity Purification of Translated
mRNAs from Neuronal Axons in Mouse In Vivo
Toshiaki Shigeoka, Jane Jung, Christine E. Holt, and Hosung Jung
Abstract
Translating ribosome affinity purification (TRAP) is a widely used technique to analyze ribosome-bound
mRNAs in particular target cells that express a tagged ribosomal protein. We developed axon-TRAP-
RiboTag, a TRAP-based method that allows purification and identification of translated mRNAs from
distal neuronal axons in mouse, and identified more than 2000 of translated mRNAs in retinal ganglion cell
(RGC) axons in vivo. The use of Cre-negative littermate control to filter out false-positive signals allows
unbiased detection, and combining TRAP with in vitro ribosome run-off enables identification of actively
translated mRNAs. Here, we describe a detailed protocol to identify translated mRNAs in RGC axons in
mouse in vivo. This method can be applied to any neurons whose cell bodies and distal axons are
anatomically separated.
Key wordsRibosome, Translation, mRNAs, Immunoprecipitation, Axon, Neuron
1 Introduction
Translation is a key step that controls the abundance of proteins in
the cell [1], and therefore it is crucial to profile translated mRNAs
in a specific cell population in vivo to understand how cells regulate
their gene expression within an organism. Translating ribosome
affinity purification (TRAP), affinity purification of ribosomes car-
rying an epitope-tagged ribosomal protein (RP) from a specific cell
population, is a useful approach to obtain cell type-specific profiles
of ribosome-bound mRNAs [2–8]. This technique utilizes a genet-
ically engineered animal that expresses an epitope-tagged RP, such
as EGFP (enhanced green fluorescence protein)-Rpl10a and
Rpl22-HA (hemagglutinin), in a genetically defined population of
cells. Using a cell type-specific promoter that drives the expression
of the tagged RP, ribosome–mRNA complexes can be specifically
purified from the cells where the promoter is active in a tissue, an
organ, or an organism. Compared to RNase protection-based ribo-
some profiling, TRAP has the advantage that it generates sequence
Imre Gaspar (ed.),RNA Detection: Methods and Protocols, Methods in Molecular Biology,
vol. 1649, DOI 10.1007/978-1-4939-7213-5_5,©Springer Science+Business Media LLC 2018
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