| Popis: |
Across all walks of life, certain transfer RNA (tRNA) transcripts contain introns. Pre-tRNAs with introns require splicing to form the mature anticodon stem loop (ASL). In eukaryotes, tRNA splicing is initiated by the heterotetrameric tRNA splicing endonuclease (TSEN) complex. All TSEN subunits are essential and mutations within the complex are associated with a family of neurodevelopmental disorders known as pontocerebellar hypoplasia (PCH). The pathogenesis of PCH is poorly understood. Moreover, a lack of structures for any eukaryotic TSEN complex has hindered our understanding of tRNA recognition and processing. Here, we report Cryo-Electron Microscopy (cryo-EM) structures of the human TSEN•pre-tRNA complex, trapped in the pre-cleavage state, at near atomic resolution. These structures reveal the overall architecture of the complex, along with extensive tRNA binding interfaces within the complex. Although it shares structural homology with archaeal TSENs, the human TSEN complex contains additional features important for recognizing the acceptor stem and D-arm of the pre-tRNA. Our findings also establish the TSEN54 subunit as more than a simple molecular ruler; it functions as a pivotal scaffold for the pre-tRNA and the two endonuclease subunits, TSEN2 and TSEN34. Finally, the human TSEN structures enable detailed visualization of the molecular environments of PCH-causing missense mutations, providing crucial insight into the mechanism of eukaryotic pre-tRNA splicing and neurodevelopmental disease. |
