| Structural highlights
Function
TSSC4_HUMAN Protein associated with the U5 snRNP, during its maturation and its post-splicing recycling and which is required for spliceosomal tri-snRNP complex assembly in the nucleus (PubMed:34131137, PubMed:35188580). Has a molecular sequestering activity and transiently hinders SNRNP200 binding sites for constitutive splicing factors that intervene later during the assembly of the spliceosome and splicing (PubMed:35188580). Together with its molecular sequestering activity, may also function as a molecular adapter and placeholder, coordinating the assembly of the U5 snRNP and its association with the U4/U6 di-snRNP (PubMed:34131137).[1] [2]
Publication Abstract from PubMed
Biogenesis of spliceosomal small nuclear ribonucleoproteins (snRNPs) and their recycling after splicing require numerous assembly/recycling factors whose modes of action are often poorly understood. The intrinsically disordered TSSC4 protein has been identified as a nuclear-localized U5 snRNP and U4/U6-U5 tri-snRNP assembly/recycling factor, but how TSSC4's intrinsic disorder supports TSSC4 functions remains unknown. Using diverse interaction assays and cryogenic electron microscopy-based structural analysis, we show that TSSC4 employs four conserved, non-contiguous regions to bind the PRPF8 Jab1/MPN domain and the SNRNP200 helicase at functionally important sites. It thereby inhibits SNRNP200 helicase activity, spatially aligns the proteins, coordinates formation of a U5 sub-module and transiently blocks premature interaction of SNRNP200 with at least three other spliceosomal factors. Guided by the structure, we designed a TSSC4 variant that lacks stable binding to the PRPF8 Jab1/MPN domain or SNRNP200 in vitro. Comparative immunoprecipitation/mass spectrometry from HEK293 nuclear extract revealed distinct interaction profiles of wild type TSSC4 and the variant deficient in PRPF8/SNRNP200 binding with snRNP proteins, other spliceosomal proteins as well as snRNP assembly/recycling factors and chaperones. Our findings elucidate molecular strategies employed by an intrinsically disordered protein to promote snRNP assembly, and suggest multiple TSSC4-dependent stages during snRNP assembly/recycling.
The intrinsically disordered TSSC4 protein acts as a helicase inhibitor, placeholder and multi-interaction coordinator during snRNP assembly and recycling.,Bergfort A, Hilal T, Kuropka B, Ilik IA, Weber G, Aktas T, Freund C, Wahl MC Nucleic Acids Res. 2022 Mar 21;50(5):2938-2958. doi: 10.1093/nar/gkac087. PMID:35188580[3]
From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.
See Also
References
- ↑ Klimešová K, Vojáčková J, Radivojević N, Vandermoere F, Bertrand E, Verheggen C, Staněk D. TSSC4 is a component of U5 snRNP that promotes tri-snRNP formation. Nat Commun. 2021 Jun 15;12(1):3646. PMID:34131137 doi:10.1038/s41467-021-23934-y
- ↑ Bergfort A, Hilal T, Kuropka B, Ilik İA, Weber G, Aktaş T, Freund C, Wahl MC. The intrinsically disordered TSSC4 protein acts as a helicase inhibitor, placeholder and multi-interaction coordinator during snRNP assembly and recycling. Nucleic Acids Res. 2022 Mar 21;50(5):2938-2958. PMID:35188580 doi:10.1093/nar/gkac087
- ↑ Bergfort A, Hilal T, Kuropka B, Ilik İA, Weber G, Aktaş T, Freund C, Wahl MC. The intrinsically disordered TSSC4 protein acts as a helicase inhibitor, placeholder and multi-interaction coordinator during snRNP assembly and recycling. Nucleic Acids Res. 2022 Mar 21;50(5):2938-2958. PMID:35188580 doi:10.1093/nar/gkac087
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