Summary
The 5′ UTRs of mRNAs are critical for translation regulation, but their in vivo regulatory features are poorly characterized. Here, we report the regulatory landscape of 5′ UTRs during early zebrafish embryogenesis using a massively parallel reporter assay of 18,154 sequences coupled to polysome profiling. We found that the 5′ UTR is sufficient to confer temporal dynamics to translation initiation, and identified 86 motifs enriched in 5′ UTRs with distinct ribosome recruitment capabilities. A quantitative deep learning model, DaniO5P, revealed a combined role for 5′ UTR length, translation initiation site context, upstream AUGs and sequence motifs on in vivo ribosome recruitment. DaniO5P predicts the activities of 5′ UTR isoforms and indicates that modulating 5′ UTR length and motif grammar contributes to translation initiation dynamics. This study provides a first quantitative model of 5′ UTR-based translation regulation in early vertebrate development and lays the foundation for identifying the underlying molecular effectors.
Highlights
In vivo MPRA systematically interrogates the regulatory potential of endogenous 5′ UTRs
The 5′ UTR alone is sufficient to regulate the dynamics of ribosome recruitment during early embryogenesis
The MPRA identifies 5′ UTR cis-regulatory motifs for translation initiation control
5′ UTR length, upstream AUGs and motif grammar contribute to the differential regulatory capability of 5′ UTR switching isoforms
Competing Interest Statement
G.S. is on the SAB of Modulus Therapeutics and is a co-founder of Parse Biosciences. The authors declare no other competing interests.