A massively parallel reporter assay reveals focused and broadly encoded RNA localization signals in neurons

Author:

Mikl Martin12ORCID,Eletto Davide1,Nijim Malak2,Lee Minkyoung1,Lafzi Atefeh1,Mhamedi Farah1,David Orit2,Sain Simona Baghai1,Handler Kristina1,Moor Andreas E1ORCID

Affiliation:

1. Department of Biosystems Science and Engineering , ETH Zürich, Basel, Switzerland

2. Department of Human Biology, University of Haifa , Haifa, Israel

Abstract

Abstract Asymmetric subcellular mRNA localization allows spatial regulation of gene expression and functional compartmentalization. In neurons, localization of specific mRNAs to neurites is essential for cellular functioning. However, it is largely unknown how transcript sorting works in a sequence-specific manner. Here, we combined subcellular transcriptomics and massively parallel reporter assays and tested ∼50 000 sequences for their ability to localize to neurites. Mapping the localization potential of >300 genes revealed two ways neurite targeting can be achieved: focused localization motifs and broadly encoded localization potential. We characterized the interplay between RNA stability and localization and identified motifs able to bias localization towards neurite or soma as well as the trans-acting factors required for their action. Based on our data, we devised machine learning models that were able to predict the localization behavior of novel reporter sequences. Testing this predictor on native mRNA sequencing data showed good agreement between predicted and observed localization potential, suggesting that the rules uncovered by our MPRA also apply to the localization of native full-length transcripts.

Funder

ERC

Swiss National Science Foundation

Ministry of Innovation, Science and Technology, Israel

Data Science Research Center at the University of Haifa

Publisher

Oxford University Press (OUP)

Subject

Genetics

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