NUP42/YDR192C Literature Guide 
Other names published for NUP42: RIP1, UIP1, YDR192C
NUP42 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Protein Physical Properties
- Protein Sequence Features
- Protein-protein Interactions
- Protein/Nucleic Acid Structure
- Substrates/Ligands/Cofactors
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Other Topics
- Additional Information
NUP42 - Protein-protein Interactions (20)
| Reference | Other Genes Addressed |
|---|---|
| Tetenbaum-Novatt J, et al. (2012) Nucleocytoplasmic transport: a role for nonspecific competition in karyopherin-nucleoporin interactions. Mol Cell Proteomics 11(5):31-46 |
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| Alberti S, et al. (2009) A systematic survey identifies prions and illuminates sequence features of prionogenic proteins. Cell 137(1):146-58 |
|
| Beliakova-Bethell N, et al. (2009) Ty3 nuclear entry is initiated by viruslike particle docking on GLFG nucleoporins. J Virol 83(22):11914-25 |
|
| Neuber A, et al. (2008) Nuclear export receptor Xpo1/Crm1 is physically and functionally linked to the spindle pole body in budding yeast. Mol Cell Biol 28(17):5348-58 |
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| Alber F, et al. (2007) Determining the architectures of macromolecular assemblies. Nature 450(7170):683-94 |
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| Bradatsch B, et al. (2007) Arx1 functions as an unorthodox nuclear export receptor for the 60S preribosomal subunit. Mol Cell 27(5):767-79 |
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| Patel SS, et al. (2007) Natively unfolded nucleoporins gate protein diffusion across the nuclear pore complex. Cell 129(1):83-96 |
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| Estruch F, et al. (2005) Physical and genetic interactions link the yeast protein Zds1p with mRNA nuclear export. J Biol Chem 280(10):9691-7 |
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| Pyhtila B and Rexach M (2003) A gradient of affinity for the karyopherin Kap95p along the yeast nuclear pore complex. J Biol Chem 278(43):42699-709 |
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| Allen NP, et al. (2001) Proteomic analysis of nucleoporin interacting proteins. J Biol Chem 276(31):29268-74 |
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| Takahashi Y, et al. (2000) Yeast Ulp1, an Smt3-specific protease, associates with nucleoporins. J Biochem 128(5):723-5 |
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| Vainberg IE, et al. (2000) Nuclear export of heat shock and non-heat-shock mRNA occurs via similar pathways. Mol Cell Biol 20(11):3996-4005 |
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| Hodge CA, et al. (1999) Rat8p/Dbp5p is a shuttling transport factor that interacts with Rat7p/Nup159p and Gle1p and suppresses the mRNA export defect of xpo1-1 cells. EMBO J 18(20):5778-88 |
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| Strahm Y, et al. (1999) The RNA export factor Gle1p is located on the cytoplasmic fibrils of the NPC and physically interacts with the FG-nucleoporin Rip1p, the DEAD-box protein Rat8p/Dbp5p and a new protein Ymr 255p. EMBO J 18(20):5761-77 |
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| Neville M, et al. (1997) The importin-beta family member Crm1p bridges the interaction between Rev and the nuclear pore complex during nuclear export. Curr Biol 7(10):767-75 |
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| Saavedra CA, et al. (1997) Yeast heat shock mRNAs are exported through a distinct pathway defined by Rip1p. Genes Dev 11(21):2845-56 |
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| Murphy R and Wente SR (1996) An RNA-export mediator with an essential nuclear export signal. Nature 383(6598):357-60 |
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| Murphy R, et al. (1996) GLE2, a Saccharomyces cerevisiae homologue of the Schizosaccharomyces pombe export factor RAE1, is required for nuclear pore complex structure and function. Mol Biol Cell 7(12):1921-37 |
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| Stutz F, et al. (1996) A role for nucleoporin FG repeat domains in export of human immunodeficiency virus type 1 Rev protein and RNA from the nucleus. Mol Cell Biol 16(12):7144-50 |
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| Stutz F, et al. (1995) Identification of a novel nuclear pore-associated protein as a functional target of the HIV-1 Rev protein in yeast. Cell 82(3):495-506 |
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