Primary Literature
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- Al-Husini N, et al. (2017) Genomewide Analysis of Clp1 Function in Transcription in Budding Yeast. Sci Rep 7(1):6894 PMID: 28761171
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- Xu X, et al. (2015) Chemical shift assignments of a new folded domain from yeast Pcf11. Biomol NMR Assign 9(2) PMID: 26133941
- Dupin AF and Fribourg S (2014) Structural basis for ATP loss by Clp1p in a G135R mutant protein. Biochimie 101:203-7 PMID: 24508575
- Pearson E and Moore C (2014) The evolutionarily conserved Pol II flap loop contributes to proper transcription termination on short yeast genes. Cell Rep 9(3):821-8 PMID: 25437538
- Ghazy MA, et al. (2012) The interaction of Pcf11 and Clp1 is needed for mRNA 3'-end formation and is modulated by amino acids in the ATP-binding site. Nucleic Acids Res 40(3):1214-25 PMID: 21993299
- Haddad R, et al. (2012) An essential role for Clp1 in assembly of polyadenylation complex CF IA and Pol II transcription termination. Nucleic Acids Res 40(3):1226-39 PMID: 21993300
- Paulson AR and Tong L (2012) Crystal structure of the Rna14-Rna15 complex. RNA 18(6):1154-62 PMID: 22513198
- Gordon JM, et al. (2011) Reconstitution of CF IA from overexpressed subunits reveals stoichiometry and provides insights into molecular topology. Biochemistry 50(47):10203-14 PMID: 22026644
- Holbein S, et al. (2011) The P-loop domain of yeast Clp1 mediates interactions between CF IA and CPF factors in pre-mRNA 3' end formation. PLoS One 6(12):e29139 PMID: 22216186
- Mackereth CD (2011) Chemical shift assignments of a minimal Rna14p/Rna15p heterodimer from the yeast cleavage factor IA complex. Biomol NMR Assign 5(1):93-5 PMID: 20967574
- Moreno-Morcillo M, et al. (2011) Locked tether formation by cooperative folding of Rna14p monkeytail and Rna15p hinge domains in the yeast CF IA complex. Structure 19(4):534-45 PMID: 21481776
- Mariconti L, et al. (2010) Coupled RNA polymerase II transcription and 3' end formation with yeast whole-cell extracts. RNA 16(11):2205-17 PMID: 20810619
- Qu X, et al. (2009) Assembly of an export-competent mRNP is needed for efficient release of the 3'-end processing complex after polyadenylation. Mol Cell Biol 29(19):5327-38 PMID: 19635808
- Bucheli ME, et al. (2007) Polyadenylation site choice in yeast is affected by competition between Npl3 and polyadenylation factor CFI. RNA 13(10):1756-64 PMID: 17684230
- Wong CM, et al. (2007) Yeast cap binding complex impedes recruitment of cleavage factor IA to weak termination sites. Mol Cell Biol 27(18):6520-31 PMID: 17636014
- Kyburz A, et al. (2003) The role of the yeast cleavage and polyadenylation factor subunit Ydh1p/Cft2p in pre-mRNA 3'-end formation. Nucleic Acids Res 31(14):3936-45 PMID: 12853609
- Morlando M, et al. (2002) Functional analysis of yeast snoRNA and snRNA 3'-end formation mediated by uncoupling of cleavage and polyadenylation. Mol Cell Biol 22(5):1379-89 PMID: 11839805
- Skaar DA and Greenleaf AL (2002) The RNA polymerase II CTD kinase CTDK-I affects pre-mRNA 3' cleavage/polyadenylation through the processing component Pti1p. Mol Cell 10(6):1429-39 PMID: 12504017
- Ohnacker M, et al. (2000) The WD-repeat protein pfs2p bridges two essential factors within the yeast pre-mRNA 3'-end-processing complex. EMBO J 19(1):37-47 PMID: 10619842
- Zhao J, et al. (1999) Pta1, a component of yeast CF II, is required for both cleavage and poly(A) addition of mRNA precursor. Mol Cell Biol 19(11):7733-40 PMID: 10523662
- Minvielle-Sebastia L, et al. (1998) Control of cleavage site selection during mRNA 3' end formation by a yeast hnRNP. EMBO J 17(24):7454-68 PMID: 9857200
- Kessler MM, et al. (1997) Hrp1, a sequence-specific RNA-binding protein that shuttles between the nucleus and the cytoplasm, is required for mRNA 3'-end formation in yeast. Genes Dev 11(19):2545-56 PMID: 9334319
- Minvielle-Sebastia L, et al. (1997) The major yeast poly(A)-binding protein is associated with cleavage factor IA and functions in premessenger RNA 3'-end formation. Proc Natl Acad Sci U S A 94(15):7897-902 PMID: 9223284
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