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Items: 1 to 20 of 32

1.

Functional characterization of naturally occurring genetic variations of the human guanine-rich RNA sequence binding factor 1 (GRSF1).

Sofi S, Fitzgerald JC, Jähn D, Dumoulin B, Stehling S, Kuhn H, Ufer C.

Biochim Biophys Acta Gen Subj. 2018 Apr;1862(4):866-876. doi: 10.1016/j.bbagen.2017.12.008. Epub 2018 Jan 20.

PMID:
29366917
2.

Functional characterization of isolated RNA-binding domains of the GRSF1 protein.

Sofi S, Stehling S, Niewienda A, Janek K, Kuhn H, Ufer C.

Biochim Biophys Acta Gen Subj. 2018 Apr;1862(4):946-957. doi: 10.1016/j.bbagen.2017.12.009. Epub 2017 Dec 26.

PMID:
29288125
3.

The mitochondrial RNA-binding protein GRSF1 localizes to RNA granules and is required for posttranscriptional mitochondrial gene expression.

Antonicka H, Sasarman F, Nishimura T, Paupe V, Shoubridge EA.

Cell Metab. 2013 Mar 5;17(3):386-98. doi: 10.1016/j.cmet.2013.02.006.

4.

Selective translation of eukaryotic mRNAs: functional molecular analysis of GRSF-1, a positive regulator of influenza virus protein synthesis.

Kash JC, Cunningham DM, Smit MW, Park Y, Fritz D, Wilusz J, Katze MG.

J Virol. 2002 Oct;76(20):10417-26.

5.
6.

Assignment of GRSF1 encoding a poly(A)+ mRNA binding protein to human chromosome 4q13.

Banga SS, Ozer HL, Wilusz J.

Cytogenet Cell Genet. 1996;73(4):295-6. No abstract available.

7.
8.

HuR and GRSF1 modulate the nuclear export and mitochondrial localization of the lncRNA RMRP.

Noh JH, Kim KM, Abdelmohsen K, Yoon JH, Panda AC, Munk R, Kim J, Curtis J, Moad CA, Wohler CM, Indig FE, de Paula W, Dudekula DB, De S, Piao Y, Yang X, Martindale JL, de Cabo R, Gorospe M.

Genes Dev. 2016 May 15;30(10):1224-39. doi: 10.1101/gad.276022.115. Epub 2016 May 19.

9.

miR-346 and miR-138 competitively regulate hTERT in GRSF1- and AGO2-dependent manners, respectively.

Song G, Wang R, Guo J, Liu X, Wang F, Qi Y, Wan H, Liu M, Li X, Tang H.

Sci Rep. 2015 Oct 28;5:15793. doi: 10.1038/srep15793.

10.

Grsf1-induced translation of the SNARE protein Use1 is required for expansion of the erythroid compartment.

Nieradka A, Ufer C, Thiadens K, Grech G, Horos R, van Coevorden-Hameete M, van den Akker E, Sofi S, Kuhn H, von Lindern M.

PLoS One. 2014 Sep 3;9(9):e104631. doi: 10.1371/journal.pone.0104631. eCollection 2014.

11.

Identification of internal ribosome entry segment (IRES)-trans-acting factors for the Myc family of IRESs.

Cobbold LC, Spriggs KA, Haines SJ, Dobbyn HC, Hayes C, de Moor CH, Lilley KS, Bushell M, Willis AE.

Mol Cell Biol. 2008 Jan;28(1):40-9. Epub 2007 Oct 29.

12.

Mitochondrial RNA Granules Are Centers for Posttranscriptional RNA Processing and Ribosome Biogenesis.

Antonicka H, Shoubridge EA.

Cell Rep. 2015 Feb 12. pii: S2211-1247(15)00055-8. doi: 10.1016/j.celrep.2015.01.030. [Epub ahead of print]

13.

Discovery of multiple interacting partners of gankyrin, a proteasomal chaperone and an oncoprotein--evidence for a common hot spot site at the interface and its functional relevance.

Nanaware PP, Ramteke MP, Somavarapu AK, Venkatraman P.

Proteins. 2014 Jul;82(7):1283-300. doi: 10.1002/prot.24494. Epub 2014 Jan 15.

PMID:
24338975
14.

GRSF1 regulates RNA processing in mitochondrial RNA granules.

Jourdain AA, Koppen M, Wydro M, Rodley CD, Lightowlers RN, Chrzanowska-Lightowlers ZM, Martinou JC.

Cell Metab. 2013 Mar 5;17(3):399-410. doi: 10.1016/j.cmet.2013.02.005.

15.

A functional peptidyl-tRNA hydrolase, ICT1, has been recruited into the human mitochondrial ribosome.

Richter R, Rorbach J, Pajak A, Smith PM, Wessels HJ, Huynen MA, Smeitink JA, Lightowlers RN, Chrzanowska-Lightowlers ZM.

EMBO J. 2010 Mar 17;29(6):1116-25. doi: 10.1038/emboj.2010.14. Epub 2010 Feb 25.

16.

Global analysis of TDP-43 interacting proteins reveals strong association with RNA splicing and translation machinery.

Freibaum BD, Chitta RK, High AA, Taylor JP.

J Proteome Res. 2010 Feb 5;9(2):1104-20. doi: 10.1021/pr901076y.

17.

A Compendium of RNA-Binding Proteins that Regulate MicroRNA Biogenesis.

Treiber T, Treiber N, Plessmann U, Harlander S, Daiß JL, Eichner N, Lehmann G, Schall K, Urlaub H, Meister G.

Mol Cell. 2017 Apr 20;66(2):270-284.e13. doi: 10.1016/j.molcel.2017.03.014.

18.

The scaffold protein KSR1, a novel therapeutic target for the treatment of Merlin-deficient tumors.

Zhou L, Lyons-Rimmer J, Ammoun S, Müller J, Lasonder E, Sharma V, Ercolano E, Hilton D, Taiwo I, Barczyk M, Hanemann CO.

Oncogene. 2016 Jun 30;35(26):3443-53. doi: 10.1038/onc.2015.404. Epub 2015 Nov 9.

19.

Integrative analysis of kinase networks in TRAIL-induced apoptosis provides a source of potential targets for combination therapy.

So J, Pasculescu A, Dai AY, Williton K, James A, Nguyen V, Creixell P, Schoof EM, Sinclair J, Barrios-Rodiles M, Gu J, Krizus A, Williams R, Olhovsky M, Dennis JW, Wrana JL, Linding R, Jorgensen C, Pawson T, Colwill K.

Sci Signal. 2015 Apr 7;8(371):rs3. doi: 10.1126/scisignal.2005700.

PMID:
25852190
20.

Mitochondrial Protein Interaction Mapping Identifies Regulators of Respiratory Chain Function.

Floyd BJ, Wilkerson EM, Veling MT, Minogue CE, Xia C, Beebe ET, Wrobel RL, Cho H, Kremer LS, Alston CL, Gromek KA, Dolan BK, Ulbrich A, Stefely JA, Bohl SL, Werner KM, Jochem A, Westphall MS, Rensvold JW, Taylor RW, Prokisch H, Kim JP, Coon JJ, Pagliarini DJ.

Mol Cell. 2016 Aug 18;63(4):621-632. doi: 10.1016/j.molcel.2016.06.033. Epub 2016 Aug 4.

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