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Items: 1 to 20 of 167

1.

Synthetic genetic array analysis in Saccharomyces cerevisiae provides evidence for an interaction between RAT8/DBP5 and genes encoding P-body components.

Scarcelli JJ, Viggiano S, Hodge CA, Heath CV, Amberg DC, Cole CN.

Genetics. 2008 Aug;179(4):1945-55. doi: 10.1534/genetics.108.091256. Epub 2008 Aug 9.

4.

Dbp5p/Rat8p is a yeast nuclear pore-associated DEAD-box protein essential for RNA export.

Snay-Hodge CA, Colot HV, Goldstein AL, Cole CN.

EMBO J. 1998 May 1;17(9):2663-76.

5.

Nucleoporin FG domains facilitate mRNP remodeling at the cytoplasmic face of the nuclear pore complex.

Adams RL, Terry LJ, Wente SR.

Genetics. 2014 Aug;197(4):1213-24. doi: 10.1534/genetics.114.164012. Epub 2014 Jun 14.

6.

The Dbp5 cycle at the nuclear pore complex during mRNA export I: dbp5 mutants with defects in RNA binding and ATP hydrolysis define key steps for Nup159 and Gle1.

Hodge CA, Tran EJ, Noble KN, Alcazar-Roman AR, Ben-Yishay R, Scarcelli JJ, Folkmann AW, Shav-Tal Y, Wente SR, Cole CN.

Genes Dev. 2011 May 15;25(10):1052-64. doi: 10.1101/gad.2041611.

7.

Insights into mRNP biogenesis provided by new genetic interactions among export and transcription factors.

Estruch F, Hodge C, Gómez-Navarro N, Peiró-Chova L, Heath CV, Cole CN.

BMC Genet. 2012 Sep 10;13:80. doi: 10.1186/1471-2156-13-80.

9.

Nuclear Export of Pre-Ribosomal Subunits Requires Dbp5, but Not as an RNA-Helicase as for mRNA Export.

Neumann B, Wu H, Hackmann A, Krebber H.

PLoS One. 2016 Feb 12;11(2):e0149571. doi: 10.1371/journal.pone.0149571. eCollection 2016.

10.

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.

Noble KN, Tran EJ, Alcázar-Román AR, Hodge CA, Cole CN, Wente SR.

Genes Dev. 2011 May 15;25(10):1065-77. doi: 10.1101/gad.2040611.

11.

The DEAD-box protein Dbp5 controls mRNA export by triggering specific RNA:protein remodeling events.

Tran EJ, Zhou Y, Corbett AH, Wente SR.

Mol Cell. 2007 Dec 14;28(5):850-9.

12.

The DEAD-box RNA helicase Dbp5 functions in translation termination.

Gross T, Siepmann A, Sturm D, Windgassen M, Scarcelli JJ, Seedorf M, Cole CN, Krebber H.

Science. 2007 Feb 2;315(5812):646-9.

13.

Inositol hexakisphosphate and Gle1 activate the DEAD-box protein Dbp5 for nuclear mRNA export.

Alcázar-Román AR, Tran EJ, Guo S, Wente SR.

Nat Cell Biol. 2006 Jul;8(7):711-6. Epub 2006 Jun 18.

PMID:
16783363
14.

Structural basis for the function of the Saccharomyces cerevisiae Gfd1 protein in mRNA nuclear export.

Zheng C, Fasken MB, Marshall NJ, Brockmann C, Rubinson ME, Wente SR, Corbett AH, Stewart M.

J Biol Chem. 2010 Jul 2;285(27):20704-15. doi: 10.1074/jbc.M110.107276. Epub 2010 May 12.

15.

Dbp5 - from nuclear export to translation.

Tieg B, Krebber H.

Biochim Biophys Acta. 2013 Aug;1829(8):791-8. doi: 10.1016/j.bbagrm.2012.10.010. Epub 2012 Nov 2. Review.

PMID:
23128325
16.

A conserved mechanism of DEAD-box ATPase activation by nucleoporins and InsP6 in mRNA export.

Montpetit B, Thomsen ND, Helmke KJ, Seeliger MA, Berger JM, Weis K.

Nature. 2011 Apr 14;472(7342):238-42. doi: 10.1038/nature09862. Epub 2011 Mar 27.

17.

Structure of the C-terminus of the mRNA export factor Dbp5 reveals the interaction surface for the ATPase activator Gle1.

Dossani ZY, Weirich CS, Erzberger JP, Berger JM, Weis K.

Proc Natl Acad Sci U S A. 2009 Sep 22;106(38):16251-6. doi: 10.1073/pnas.0902251106. Epub 2009 Sep 2.

18.

Activation of the DExD/H-box protein Dbp5 by the nuclear-pore protein Gle1 and its coactivator InsP6 is required for mRNA export.

Weirich CS, Erzberger JP, Flick JS, Berger JM, Thorner J, Weis K.

Nat Cell Biol. 2006 Jul;8(7):668-76. Epub 2006 Jun 18.

PMID:
16783364
19.

Control of mRNA export and translation termination by inositol hexakisphosphate requires specific interaction with Gle1.

Alcázar-Román AR, Bolger TA, Wente SR.

J Biol Chem. 2010 May 28;285(22):16683-92. doi: 10.1074/jbc.M109.082370. Epub 2010 Apr 6.

20.

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