Genome wide analysis of 3′ UTR sequence elements and proteins regulating mRNA stability during maternal-to-zygotic transition in zebrafish

Author:

Vejnar Charles E.ORCID,Abdel Messih MarioORCID,Takacs Carter M.,Yartseva Valeria,Oikonomou Panos,Christiano Romain,Stoeckius Marlon,Lau Stephanie,Lee Miler T.ORCID,Beaudoin Jean-Denis,Musaev Damir,Darwich-Codore Hiba,Walther Tobias C.,Tavazoie Saeed,Cifuentes Daniel,Giraldez Antonio J.

Abstract

Posttranscriptional regulation plays a crucial role in shaping gene expression. During the maternal-to-zygotic transition (MZT), thousands of maternal transcripts are regulated. However, how different cis-elements and trans-factors are integrated to determine mRNA stability remains poorly understood. Here, we show that most transcripts are under combinatorial regulation by multiple decay pathways during zebrafish MZT. By using a massively parallel reporter assay, we identified cis-regulatory sequences in the 3′ UTR, including U-rich motifs that are associated with increased mRNA stability. In contrast, miR-430 target sequences, UAUUUAUU AU-rich elements (ARE), CCUC, and CUGC elements emerged as destabilizing motifs, with miR-430 and AREs causing mRNA deadenylation upon genome activation. We identified trans-factors by profiling RNA–protein interactions and found that poly(U)-binding proteins are preferentially associated with 3′ UTR sequences and stabilizing motifs. We show that this activity is antagonized by C-rich motifs and correlated with protein binding. Finally, we integrated these regulatory motifs into a machine learning model that predicts reporter mRNA stability in vivo.

Funder

Swiss National Science Foundation

NIH

NHGRI

Deutsche Forschungsgemeinschaft

DFG

Eunice Kennedy Shriver National Institute of Child Health and Human Development

Howard Hughes Medical Institute

Simons Foundation

Publisher

Cold Spring Harbor Laboratory

Subject

Genetics (clinical),Genetics

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