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Literature DB >> 21233223

Hexameric architecture of CstF supported by CstF-50 homodimerization domain structure.

María Moreno-Morcillo¹, Lionel Minvielle-Sébastia, Cameron Mackereth, Sébastien Fribourg.

Abstract

The Cleavage stimulation Factor (CstF) complex is composed of three subunits and is essential for pre-mRNA 3'-end processing. CstF recognizes U and G/U-rich cis-acting RNA sequence elements and helps stabilize the Cleavage and Polyadenylation Specificity Factor (CPSF) at the polyadenylation site as required for productive RNA cleavage. Here, we describe the crystal structure of the N-terminal domain of Drosophila CstF-50 subunit. It forms a compact homodimer that exposes two geometrically opposite, identical, and conserved surfaces that may serve as binding platform. Together with previous data on the structure of CstF-77, homodimerization of CstF-50 N-terminal domain supports the model in which the functional state of CstF is a heterohexamer.

Entities: Gene Species

Mesh：

Substances：

Year: 2011 PMID： 21233223 PMCID： PMC3039141 DOI： 10.1261/rna.2481011

Source DB: PubMed Journal: RNA ISSN： 1355-8382 Impact factor: 4.942

36 in total

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Journal: Acta Crystallogr D Biol Crystallogr Date: 2006-09-19

7. Polyadenylation factor CPSF-73 is the pre-mRNA 3'-end-processing endonuclease.

Authors: Corey R Mandel; Syuzo Kaneko; Hailong Zhang; Damara Gebauer; Vasupradha Vethantham; James L Manley; Liang Tong
Journal: Nature Date: 2006-11-26 Impact factor: 49.962

8. Key features of the interaction between Pcf11 CID and RNA polymerase II CTD.

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9. A large-scale analysis of mRNA polyadenylation of human and mouse genes.

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Review 10. Molecular mechanisms of eukaryotic pre-mRNA 3' end processing regulation.

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Authors: Qin Yang; Gregory M Gilmartin; Sylvie Doublié
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4. Crystal structure of the LUFS domain of human single-stranded DNA binding Protein 2 (SSBP2).

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Review 5. Delineating the structural blueprint of the pre-mRNA 3'-end processing machinery.

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Review 6. Structural biology of poly(A) site definition.

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7. Reconstitution of CF IA from overexpressed subunits reveals stoichiometry and provides insights into molecular topology.

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