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  • Title: An ATP-independent role for Prp16 in promoting aberrant splicing.
    Author: Chung CS, Wai HL, Kao CY, Cheng SC.
    Journal: Nucleic Acids Res; 2023 Nov 10; 51(20):10815-10828. PubMed ID: 37858289.
    Abstract:
    The spliceosome is assembled through a step-wise process of binding and release of its components to and from the pre-mRNA. The remodeling process is facilitated by eight DExD/H-box RNA helicases, some of which have also been implicated in splicing fidelity control. In this study, we unveil a contrasting role for the prototypic splicing proofreader, Prp16, in promoting the utilization of aberrant 5' splice sites and mutated branchpoints. Prp16 is not essential for the branching reaction in wild-type pre-mRNA. However, when a mutation is present at the 5' splice site or if Cwc24 is absent, Prp16 facilitates the reaction and encourages aberrant 5' splice site usage independently of ATP. Prp16 also promotes the utilization of mutated branchpoints while preventing the use of nearby cryptic branch sites. Our study demonstrates that Prp16 can either enhance or impede the utilization of faulty splice sites by stabilizing or destabilizing interactions with other splicing components. Thus, Prp16 exerts dual roles in 5' splice site and branch site selection, via ATP-dependent and ATP-independent activities. Furthermore, we provide evidence that these functions of Prp16 are mediated through the step-one factor Cwc25. The DExD/H-box protein Prp16 has a well-established role in proofreading the 5′ splice site and the branch site of precursor mRNA through ATP hydrolysis to ensure the accuracy of the splicing process. Our research has unveiled an unexpected facet of Prp16’s function, as it also promotes aberrant selection of the 5′ splice site and the branch site through an ATP-independent activity. Prp16 accomplishes these contrasting functions by interacting with the step-one factor Cwc25. It can stabilize Cwc25 to enhance the branching reaction independently of ATP, or destabilize Cwc25 to inhibit the reaction through its ATPase activity. Prp16 exerts dual roles in splice site selection, employing ATP-dependent and ATP-independent mechanisms to regulate splicing fidelity.
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