PRP11/YDL043C Literature Guide 
Other names published for PRP11: RNA11, YDL043C
PRP11 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Other Topics
- Additional Information
PRP11 - Primary Literature (19)
| Reference | Other Genes Addressed |
|---|---|
| Lin PC and Xu RM (2012) Structure and assembly of the SF3a splicing factor complex of U2 snRNP. EMBO J 31(6):1579-90 |
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| Alexander RD, et al. (2010) Splicing-dependent RNA polymerase pausing in yeast. Mol Cell 40(4):582-93 |
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| Tardiff DF and Rosbash M (2006) Arrested yeast splicing complexes indicate stepwise snRNP recruitment during in vivo spliceosome assembly. RNA 12(6):968-79 |
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| Dziembowski A, et al. (2004) Proteomic analysis identifies a new complex required for nuclear pre-mRNA retention and splicing. EMBO J 23(24):4847-56 |
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| Ohi MD, et al. (2002) Proteomics analysis reveals stable multiprotein complexes in both fission and budding yeasts containing Myb-related Cdc5p/Cef1p, novel pre-mRNA splicing factors, and snRNAs. Mol Cell Biol 22(7):2011-24 |
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| Stevens SW, et al. (2002) Composition and functional characterization of the yeast spliceosomal penta-snRNP. Mol Cell 9(1):31-44 |
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| Yan D, et al. (1998) CUS2, a yeast homolog of human Tat-SF1, rescues function of misfolded U2 through an unusual RNA recognition motif. Mol Cell Biol 18(9):5000-9 |
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| Wells SE, et al. (1996) CUS1, a suppressor of cold-sensitive U2 snRNA mutations, is a novel yeast splicing factor homologous to human SAP 145. Genes Dev 10(2):220-32 |
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| Wiest DK, et al. (1996) In vitro studies of the Prp9.Prp11.Prp21 complex indicate a pathway for U2 small nuclear ribonucleoprotein activation. J Biol Chem 271(52):33268-76 |
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| Yan D and Ares M Jr (1996) Invariant U2 RNA sequences bordering the branchpoint recognition region are essential for interaction with yeast SF3a and SF3b subunits. Mol Cell Biol 16(3):818-28 |
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| Wells SE and Ares M Jr (1994) Interactions between highly conserved U2 small nuclear RNA structures and Prp5p, Prp9p, Prp11p, and Prp21p proteins are required to ensure integrity of the U2 small nuclear ribonucleoprotein in Saccharomyces cerevisiae. Mol Cell Biol 14(9):6337-49 |
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| Legrain P and Chapon C (1993) Interaction between PRP11 and SPP91 yeast splicing factors and characterization of a PRP9-PRP11-SPP91 complex. Science 262(5130):108-10 |
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| Ruby SW, et al. (1993) Four yeast spliceosomal proteins (PRP5, PRP9, PRP11, and PRP21) interact to promote U2 snRNP binding to pre-mRNA. Genes Dev 7(10):1909-25 |
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| Chang TH, et al. (1988) RNA11 protein is associated with the yeast spliceosome and is localized in the periphery of the cell nucleus. Mol Cell Biol 8(6):2379-93 |
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| Lustig AJ, et al. (1986) The yeast RNA gene products are essential for mRNA splicing in vitro. Cell 47(6):953-63 |
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| Last RL, et al. (1984) Isolation and characterization of the RNA2, RNA3, and RNA11 genes of Saccharomyces cerevisiae. Mol Cell Biol 4(11):2396-405 |
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| Soltyk A, et al. (1984) Isolation and characterization of the RNA2+, RNA4+, and RNA11+ genes of Saccharomyces cerevisiae. J Bacteriol 160(3):1093-100 |
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| Johnston LH and Game JC (1978) Mutants of yeast with depressed DNA synthesis. Mol Gen Genet 161(2):205-14 |
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| Hartwell LH, et al. (1970) Identification of ten genes that control ribosome formation in yeast. Mol Gen Genet 109(1):42-56 |
