The Ccr4-Not complex monitors the translating ribosome for codon optimality

Robert Buschauer(Gene Therapy Laboratory), Yoshitaka Matsuo(Tohoku University), Takato Sugiyama(Tohoku University), Ying-Hsin Chen(Case Western Reserve University), Najwa Alhusaini(Case Western Reserve University), Thomas J. Sweet(Case Western Reserve University), Ken Ikeuchi(Tohoku University), Jingdong Cheng(Gene Therapy Laboratory), Yasuko Matsuki(Tohoku University), Risa Nobuta(Tohoku University), Andrea Gilmozzi(Gene Therapy Laboratory), Otto Berninghausen(Gene Therapy Laboratory), Petr Těšina(Gene Therapy Laboratory), Thomas Becker(Gene Therapy Laboratory), Jeff Coller(Case Western Reserve University), Toshifumi Inada(Tohoku University), Roland Beckmann(Gene Therapy Laboratory)
Science
April 16, 2020
10.1126/science.aay6912
Cited by 298Open Access
Full Text

Abstract

Coupling translation and mRNA decay Gene expression requires messenger RNAs (mRNAs)—DNA-derived blueprints of genes—to be translated by protein-producing ribosomes. The levels of mRNAs are tightly regulated, in part by controlling their half-lives. In eukaryotic cells, mRNA half-life is largely linked to translational efficiency, but the mechanism underlying this link has remained elusive. Buschauer et al. used cryo–electron microscopy and RNA sequencing to show how a key regulator of mRNA degradation, the Ccr4-Not complex, monitors the ribosome during mRNA translation. They found that the Not5 subunit directly binds to a ribosomal site exposed specifically during inefficient decoding, thereby triggering mRNA degradation. Analysis of mutants revealed the importance of this sensing mechanism for mRNA homeostasis. Science , this issue p. eaay6912

Related Papers

No related papers found

Powered by citation graph analysis