Publikationen
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Zeitschriftenartikel (29)
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1.45 (20), S. 11858 - 11866 (2017)Signal recognition particle binds to translating ribosomes before emergence of a signal anchor sequence. Nucleic Acids Research
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3.102 (1), S. 152 - 167 (2016)The bacterial SRP receptor, FtsY, is activated on binding to the translocon. Molecular Microbiology
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4.55 (33), S. 9544 - 9547 (2016)Electrostatics and intrinsic disorder drive translocon binding of the SRP receptor FtsY. Angewandte Chemie International Edition
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5.428 (10, P. B), S. 2165 - 2185 (2016)Protein elongation, co-translational folding and targeting. Journal of Molecular Biology
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6.23 (4), S. 342 - 348 (2016)Choreography of molecular movements during ribosome progression along mRNA. Nature Structural and Molecular Biology
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7.13 (12), S. 1197 - 1203 (2016)Translocation as continuous movement through the ribosome. RNA Biology
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11.36 (10), S. 908 - 918 (2014)Synchronous tRNA movements during translocation on the ribosome are orchestrated by elongation factor G and GTP hydrolysis. BioEssays
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13.33 (9), S. 1073 - 1085 (2014)GTP hydrolysis by EF‐G synchronizes tRNA movement on small and large ribosomal subunits. EMBO Journal
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14.42 (3), S. 1812 - 1820 (2014)Timing of GTP binding and hydrolysis by translation termination factor RF3. Nucleic Acids Research
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15.1 (1), e24315 (2013)Dual use of GTP hydrolysis by elongation factor G on the ribosome. Translation
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16.19 (12), S. 1332 - 1337 (2012)Dynamic switch of the signal recognition particle from scanning to targeting. Nature Structural and Molecular Biology
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17.109 (6), S. 2102 - 2107 (2012)Ribosome clearance by FusB-type proteins mediates resistance to the antibiotic fusidic acid. Proceedings of the National Academy of Sciences of the United States of America
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18.476, S. 351 - 354 (2011)Different substrate-dependent transition states in the active site of the ribosome. Nature
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19.39, S. 658 - 662 (2011)The ribosome as a molecular machine: The mechanism of tRNA–mRNA movement in translocation. Biochemical Society Transactions
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20.17 (4), S. 389 - 392 (2011)Genauigkeit und Geschwindigkeit der Proteinsynthese. Biospektrum
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21.11 (4), S. 312 - 316 (2010)The ribosome-bound initiation factor 2 recruits initiator tRNA to the 30S initiation complex. EMBO Reports
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22.466 (7304), S. 329 - 333 (2010)Ribosome dynamics and tRNA movement by time-resolved electron cryomicroscopy. Nature
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23.35 (1), S. 1 - 5 (2010)The ribosome goes Nobel. Trends in Biochemical Sciences
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24.21 (3), S. 435 - 443 (2009)Recent mechanistic insight into eukaryotic ribosomes. Current Opinion in Cell Biology
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25.15 (5), S. 772 - 780 (2009)Distinct functions of elongation factor G in ribosome recycling and translocation. RNA
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26.15 (1), S. 44 - 54 (2009)Conformation of the signal recognition particle in ribosomal targeting complexes. RNA
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27.9 (2), S. 138 - 141 (2003)Das Ribosom: Struktur und Funktionen eines Mega-Ribozyms. Biospektrum
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28.9 (11), S. 849 - 854 (2002)Ribosome interactions of aminoacyl-tRNA and elongation factor Tu in the codon-recognition complex. Nature Structural Biology
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29.9 (11), S. 849 - 854 (2002)Ribosome interactions of aminoacyl-tRNA and elongation factor Tu in the codon-recognition complex. Nature Structural Biology
Buch (1)
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Buchkapitel (6)
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34.5; S - Z, S. 2650 - 2655 (Hg. Roberts, G. C. K.). Springer, Heidelberg (2013)Translocation on the ribosome. In: Encyclopedia of biophysics, Bd.
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