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Items: 15

1.

Multifaceted Stoichiometry Control of Bacterial Operons Revealed by Deep Proteome Quantification.

Zhao J, Zhang H, Qin B, Nikolay R, He QY, Spahn CMT, Zhang G.

Front Genet. 2019 May 24;10:473. doi: 10.3389/fgene.2019.00473. eCollection 2019.

2.

Translatomics: The Global View of Translation.

Zhao J, Qin B, Nikolay R, Spahn CMT, Zhang G.

Int J Mol Sci. 2019 Jan 8;20(1). pii: E212. doi: 10.3390/ijms20010212. Review.

3.

Structural Visualization of the Formation and Activation of the 50S Ribosomal Subunit during In Vitro Reconstitution.

Nikolay R, Hilal T, Qin B, Mielke T, Bürger J, Loerke J, Textoris-Taube K, Nierhaus KH, Spahn CMT.

Mol Cell. 2018 Jun 7;70(5):881-893.e3. doi: 10.1016/j.molcel.2018.05.003. Epub 2018 Jun 7.

4.

Two Antagonistic MALT1 Auto-Cleavage Mechanisms Reveal a Role for TRAF6 to Unleash MALT1 Activation.

Ginster S, Bardet M, Unterreiner A, Malinverni C, Renner F, Lam S, Freuler F, Gerrits B, Voshol J, Calzascia T, Régnier CH, Renatus M, Nikolay R, Israël L, Bornancin F.

PLoS One. 2017 Jan 4;12(1):e0169026. doi: 10.1371/journal.pone.0169026. eCollection 2017.

5.

Ribosome Assembly as Antimicrobial Target.

Nikolay R, Schmidt S, Schlömer R, Deuerling E, Nierhaus KH.

Antibiotics (Basel). 2016 May 27;5(2). pii: E18. doi: 10.3390/antibiotics5020018.

6.

Fluorescence-based monitoring of ribosome assembly landscapes.

Nikolay R, Schloemer R, Mueller S, Deuerling E.

BMC Mol Biol. 2015 Feb 25;16:3. doi: 10.1186/s12867-015-0031-y.

7.

Validation of a fluorescence-based screening concept to identify ribosome assembly defects in Escherichia coli.

Nikolay R, Schloemer R, Schmidt S, Mueller S, Heubach A, Deuerling E.

Nucleic Acids Res. 2014 Jul;42(12):e100. doi: 10.1093/nar/gku381. Epub 2014 May 3.

8.

Structural determinants of MALT1 protease activity.

Wiesmann C, Leder L, Blank J, Bernardi A, Melkko S, Decock A, D'Arcy A, Villard F, Erbel P, Hughes N, Freuler F, Nikolay R, Alves J, Bornancin F, Renatus M.

J Mol Biol. 2012 May 25;419(1-2):4-21. doi: 10.1016/j.jmb.2012.02.018. Epub 2012 Feb 23.

9.

CHIP participates in protein triage decisions by preferentially ubiquitinating Hsp70-bound substrates.

Stankiewicz M, Nikolay R, Rybin V, Mayer MP.

FEBS J. 2010 Aug;277(16):3353-67. doi: 10.1111/j.1742-4658.2010.07737.x. Epub 2010 Jul 8.

10.

Insights into the conformational dynamics of the E3 ubiquitin ligase CHIP in complex with chaperones and E2 enzymes.

Graf C, Stankiewicz M, Nikolay R, Mayer MP.

Biochemistry. 2010 Mar 16;49(10):2121-9. doi: 10.1021/bi901829f.

PMID:
20146531
11.

A conserved cysteine motif essential for ceramide kinase function.

Lidome E, Graf C, Jaritz M, Schanzer A, Rovina P, Nikolay R, Bornancin F.

Biochimie. 2008 Oct;90(10):1560-5. doi: 10.1016/j.biochi.2008.07.001. Epub 2008 Jul 10.

PMID:
18662741
12.

The Drosophila mitotic inhibitor Frühstart specifically binds to the hydrophobic patch of cyclins.

Gawliński P, Nikolay R, Goursot C, Lawo S, Chaurasia B, Herz HM, Kussler-Schneider Y, Ruppert T, Mayer M, Grosshans J.

EMBO Rep. 2007 May;8(5):490-6. Epub 2007 Apr 13.

13.

A conserved motif is prerequisite for the interaction of NAC with ribosomal protein L23 and nascent chains.

Wegrzyn RD, Hofmann D, Merz F, Nikolay R, Rauch T, Graf C, Deuerling E.

J Biol Chem. 2006 Feb 3;281(5):2847-57. Epub 2005 Nov 29.

14.

Dimerization of the human E3 ligase CHIP via a coiled-coil domain is essential for its activity.

Nikolay R, Wiederkehr T, Rist W, Kramer G, Mayer MP, Bukau B.

J Biol Chem. 2004 Jan 23;279(4):2673-8. Epub 2003 Nov 10.

15.

Aha, another regulator for hsp90 chaperones.

Mayer MP, Nikolay R, Bukau B.

Mol Cell. 2002 Dec;10(6):1255-6.

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