EMD-32320
The cryo-EM map of PRP22 region of human pre-C*-II complex
EMD-32320
Single-particle4.0 Å
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Map released: 22/06/2022
Last modified: 17/08/2022
Sample Organism:
Homo sapiens
Sample: Human pre-C*-I complex
Deposition Authors: Zhan X
,
Lu Y,
Shi Y
Sample: Human pre-C*-I complex
Deposition Authors: Zhan X
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Mechanism of exon ligation by human spliceosome.
Abstract:
Pre-mRNA splicing involves two sequential reactions: branching and exon ligation. The C complex after branching undergoes remodeling to become the C∗ complex, which executes exon ligation. Here, we report cryo-EM structures of two intermediate human spliceosomal complexes, pre-C∗-I and pre-C∗-II, both at 3.6 Å. In both structures, the 3' splice site is already docked into the active site, the ensuing 3' exon sequences are anchored on PRP8, and the step II factor FAM192A contacts the duplex between U2 snRNA and the branch site. In the transition of pre-C∗-I to pre-C∗-II, the step II factors Cactin, FAM32A, PRKRIP1, and SLU7 are recruited. Notably, the RNA helicase PRP22 is positioned quite differently in the pre-C∗-I, pre-C∗-II, and C∗ complexes, suggesting a role in 3' exon binding and proofreading. Together with information on human C and C∗ complexes, our studies recapitulate a molecular choreography of the C-to-C∗ transition, revealing mechanistic insights into exon ligation.
Pre-mRNA splicing involves two sequential reactions: branching and exon ligation. The C complex after branching undergoes remodeling to become the C∗ complex, which executes exon ligation. Here, we report cryo-EM structures of two intermediate human spliceosomal complexes, pre-C∗-I and pre-C∗-II, both at 3.6 Å. In both structures, the 3' splice site is already docked into the active site, the ensuing 3' exon sequences are anchored on PRP8, and the step II factor FAM192A contacts the duplex between U2 snRNA and the branch site. In the transition of pre-C∗-I to pre-C∗-II, the step II factors Cactin, FAM32A, PRKRIP1, and SLU7 are recruited. Notably, the RNA helicase PRP22 is positioned quite differently in the pre-C∗-I, pre-C∗-II, and C∗ complexes, suggesting a role in 3' exon binding and proofreading. Together with information on human C and C∗ complexes, our studies recapitulate a molecular choreography of the C-to-C∗ transition, revealing mechanistic insights into exon ligation.