SNAP output for PDB entry 6a6j [SNAP web server]

PDB-id

6a6j; SNAP-derived features in text and JSON formats; DNAproDB

Class

RNA binding protein-RNA

Method

X-ray (2.255 Å)

Summary

Crystal structure of zebra fish y-box protein1 (yb-1) cold-shock domain in complex with 6mer m5c RNA

Reference

Yang Y, Wang L, Han X, Yang WL, Zhang M, Ma HL, Sun BF, Li A, Xia J, Chen J, Heng J, Wu B, Chen YS, Xu JW, Yang X, Yao H, Sun J, Lyu C, Wang HL, Huang Y, Sun YP, Zhao YL, Meng A, Ma J, Liu F, Yang YG (2019): "RNA 5-Methylcytosine Facilitates the Maternal-to-Zygotic Transition by Preventing Maternal mRNA Decay." Mol.Cell, 75, 1188-1202.e11. doi: 10.1016/j.molcel.2019.06.033.

Abstract

The maternal-to-zygotic transition (MZT) is a conserved and fundamental process during which the maternal environment is converted to an environment of embryonic-driven development through dramatic reprogramming. However, how maternally supplied transcripts are dynamically regulated during MZT remains largely unknown. Herein, through genome-wide profiling of RNA 5-methylcytosine (m₅C) modification in zebrafish early embryos, we found that m₅C-modified maternal mRNAs display higher stability than non-m₅C-modified mRNAs during MZT. We discovered that Y-box binding protein 1 (Ybx1) preferentially recognizes m₅C-modified mRNAs through π-π interactions with a key residue, Trp45, in Ybx1's cold shock domain (CSD), which plays essential roles in maternal mRNA stability and early embryogenesis of zebrafish. Together with the mRNA stabilizer Pabpc1a, Ybx1 promotes the stability of its target mRNAs in an m₅C-dependent manner. Our study demonstrates an unexpected mechanism of RNA m₅C-regulated maternal mRNA stabilization during zebrafish MZT, highlighting the critical role of m₅C mRNA modification in early development.