Abstract
Activation of the spliceosome involves a major structural change in the spliceosome, including release of U1 and U4 small nuclear ribonucleoprotein particles and the addition of a large protein complex, the Prp19-associated complex. We previously showed that the Prp19-associated complex is required for stable association of U5 and U6 with the spliceosome after U4 is released. Changes within the spliceosome upon binding of the Prp19-associated complex include remodeling of the U6/5' splice site interaction and destabilization of Lsm proteins to allow further interaction of U6 with the intron sequence. Here, we further analyzed interactions of U5 and U6 with pre-mRNA at various stages of spliceosome assembly from initial binding of tri-small nuclear ribonucleoprotein complex to the activated spliceosome to reveal stepwise changes of interactions. We demonstrate that both U5 and U6 interacted with pre-mRNA in dynamic manners spanning over a large region of U6 and the 5' exon sequences prior to the activation of the spliceosome. During spliceosome activation, interactions were locked down to small regions, and the Prp19-associated complex was required for defining the specificity of interaction of U5 and U6 with the 5' splice site to stabilize their association with the spliceosome after U4 is dissociated.
Highlights
Splicing of precursor mRNA takes place on a large, dynamic ribonucleoprotein complex, the spliceosome, which is constituted of five small nuclear RNAs, U1, U2, U4, U5, and U6, and numerous protein components
We suggest that the association of tri-snRNP with the spliceosome involves dynamic interactions between U5 and U6 with pre-mRNA, and NTC plays a role in determining a stable form of base pairing between U6 and the 5Ј splice site and defining specific interactions between U5 and pre-mRNA to stabilize the association of U5 and U6 with the spliceosome after U4 is released, leading to the activation of the spliceosome
Dynamic Interactions of U6 with the 5Ј Splice Site in the Preactivated Spliceosome—We previously demonstrated that two different modes of base pairing between U6 and the 5Ј splice site can form in the spliceosome, one being NTC-de
Summary
Splice site recognition and alignment by snRNPs in the spliceosome (reviewed in Refs. 1, 2, and 4). Upon U4 dissociation, one of the two forms predominated, depending on whether NTC was present This suggests that U6 might dynamically interact with the 5Ј splice site over a broader region of U6 sequence during the association of tri-snRNP with the spliceosome. We suggest that the association of tri-snRNP with the spliceosome involves dynamic interactions between U5 and U6 with pre-mRNA, and NTC plays a role in determining a stable form of base pairing between U6 and the 5Ј splice site and defining specific interactions between U5 and pre-mRNA to stabilize the association of U5 and U6 with the spliceosome after U4 is released, leading to the activation of the spliceosome
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