NUP42/YDR192C Literature Guide Help

Other names published for NUP42: RIP1, UIP1, YDR192C

NUP42 - Strains/Constructs (26)

ReferenceOther Genes Addressed
Guan Q, et al.  (2012) Cellular memory of acquired stress resistance in Saccharomyces cerevisiae. Genetics 192(2):495-505
Hayakawa A, et al.  (2012) Ubiquitylation of the nuclear pore complex controls nuclear migration during mitosis in S. cerevisiae. J Cell Biol 196(1):19-27
Kriwacki RW and Yoon MK  (2011) Cell biology. Fishing in the nuclear pore. Science 333(6038):44-5
Noble KN, et al.  (2011) The Dbp5 cycle at the nuclear pore complex during mRNA export II: nucleotide cycling and mRNP remodeling by Dbp5 are controlled by Nup159 and Gle1. Genes Dev 25(10):1065-77
Sarma NJ, et al.  (2011) The nuclear pore complex mediates binding of the mig1 repressor to target promoters. PLoS One 6(11):e27117
Ahmed S, et al.  (2010) DNA zip codes control an ancient mechanism for gene targeting to the nuclear periphery. Nat Cell Biol 12(2):111-8
Fiserova J, et al.  (2010) Facilitated transport and diffusion take distinct spatial routes through the nuclear pore complex. J Cell Sci 123(Pt 16):2773-80
Light WH, et al.  (2010) Interaction of a DNA Zip code with the nuclear pore complex promotes H2A.Z incorporation and INO1 transcriptional memory. Mol Cell 40(1):112-25
Witkin KL, et al.  (2010) Changes in the Nuclear Envelope Environment Affect Spindle Pole Body Duplication in Saccharomyces cerevisiae. Genetics 186(3):867-83
Yao Y, et al.  (2010) Ecm1 is a new pre-ribosomal factor involved in pre-60S particle export. RNA 16(5):1007-17
Alberti S, et al.  (2009) A systematic survey identifies prions and illuminates sequence features of prionogenic proteins. Cell 137(1):146-58
Hung NJ, et al.  (2008) Arx1 Is a Nuclear Export Receptor for the 60S Ribosomal Subunit in Yeast. Mol Biol Cell 19(2):735-44
Alcazar-Roman AR, et al.  (2006) Inositol hexakisphosphate and Gle1 activate the DEAD-box protein Dbp5 for nuclear mRNA export. Nat Cell Biol 8(7):711-6
Devos D, et al.  (2006) Simple fold composition and modular architecture of the nuclear pore complex. Proc Natl Acad Sci U S A 103(7):2172-7
Kuperwasser N, et al.  (2004) Nonsense-mediated decay does not occur within the yeast nucleus. RNA 10(12):1907-15
Miller AL, et al.  (2004) Cytoplasmic inositol hexakisphosphate production is sufficient for mediating the Gle1-mRNA export pathway. J Biol Chem 279(49):51022-32
Rollenhagen C, et al.  (2004) The nuclear pore complex and the DEAD box protein Rat8p/Dbp5p have nonessential features which appear to facilitate mRNA export following heat shock. Mol Cell Biol 24(11):4869-79
Strawn LA, et al.  (2004) Minimal nuclear pore complexes define FG repeat domains essential for transport. Nat Cell Biol 6(3):197-206
Dower K and Rosbash M  (2002) T7 RNA polymerase-directed transcripts are processed in yeast and link 3' end formation to mRNA nuclear export. RNA 8(5):686-97
Rout MP, et al.  (2000) The yeast nuclear pore complex: composition, architecture, and transport mechanism. J Cell Biol 148(4):635-51
Stage-Zimmermann T, et al.  (2000) Factors affecting nuclear export of the 60S ribosomal subunit in vivo. Mol Biol Cell 11(11):3777-89
Takahashi Y, et al.  (2000) Yeast Ulp1, an Smt3-specific protease, associates with nucleoporins. J Biochem 128(5):723-5
Krebber H, et al.  (1999) Uncoupling of the hnRNP Npl3p from mRNAs during the stress-induced block in mRNA export. Genes Dev 13(15):1994-2004
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
Saavedra CA, et al.  (1997) Yeast heat shock mRNAs are exported through a distinct pathway defined by Rip1p. Genes Dev 11(21):2845-56
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