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Structural insights into human exon-defined spliceosome prior to activation

Wenyu Zhang, Xiaofeng Zhang, Xiechao Zhan, Rui Bai, Jianlin Lei, Chuangye Yan, Yigong Shi

2024Cell Research15 citationsDOIOpen Access PDF

Abstract

Spliceosome is often assembled across an exon and undergoes rearrangement to span a neighboring intron. Most states of the intron-defined spliceosome have been structurally characterized. However, the structure of a fully assembled exon-defined spliceosome remains at large. During spliceosome assembly, the pre-catalytic state (B complex) is converted from its precursor (pre-B complex). Here we report atomic structures of the exon-defined human spliceosome in four sequential states: mature pre-B, late pre-B, early B, and mature B. In the previously unknown late pre-B state, U1 snRNP is already released but the remaining proteins are still in the pre-B state; unexpectedly, the RNAs are in the B state, with U6 snRNA forming a duplex with 5'-splice site and U5 snRNA recognizing the 3'-end of the exon. In the early and mature B complexes, the B-specific factors are stepwise recruited and specifically recognize the exon 3'-region. Our study reveals key insights into the assembly of the exon-defined spliceosomes and identifies mechanistic steps of the pre-B-to-B transition.

Topics & Concepts

BiologySpliceosomeExonGeneticsRNA splicingComputational biologyGeneRNARNA Research and SplicingRNA Interference and Gene DeliveryRNA and protein synthesis mechanisms