Biochemische Charakterisierung der siRNA-vermittelten Erkennung ...
Biochemische Charakterisierung der siRNA-vermittelten Erkennung ...
Biochemische Charakterisierung der siRNA-vermittelten Erkennung ...
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7 Literaturverzeichnis<br />
[262] Daher, A.; Laraki, G.; Singh, M.; Melendez-Peña, C. E.; Bannwarth, S.; Peters,<br />
A. H. F. M.; Meurs, E. F.; Braun, R. E.; Patel, R. C.; Gatignol, A.: TRBP<br />
control of PACT-induced phosphorylation of protein kinase R is reversed by stress. In:<br />
Mol Cell Biol 29 (2009), S. 254265 169<br />
[263] Lee, J. Y.; Kim, H.; Ryu, C. H.; Kim, J. Y.; Choi, B. H.; Lim, Y.; Huh, P.-W.; Kim,<br />
Y.-H.; Lee, K.-H.; Jun, T.-Y.; Rha, H. K.; Kang, J.-K.; Choi, C. R.: Merlin, a tumor<br />
suppressor, interacts with transactivation-responsive RNA-binding protein and inhibits<br />
its oncogenic activity. In: J Biol Chem 279 (2004), S. 3026530273 169<br />
[264] Tang, F.; Hajkova, P.; O'Carroll, D.; Lee, C.; Tarakhovsky, A.; Surani, K.<br />
Laoand M. A.: MicroRNAs are tightly associated with RNA-induced gene silening<br />
complexes in vivo. In: Biochem Biophys Res Commun 372 (2008), S. 2429 173<br />
[265] Scholz, C.: Untersuchung <strong>der</strong> <strong>siRNA</strong>-<strong>vermittelten</strong> RNA-Interferenz in Säugerzellextrakt,<br />
Universität zu Lübeck, Masterarbeit, 2008 173<br />
[266] Wöhrl, B. M.; Krebs, R.; Goody, R. S.; Restle, T.: Rened model for primer/template<br />
binding by HIV-1 reverse transcriptase: pre-steady-state kinetic analyses<br />
of primer/template binding and nucleotide incorporation events distinguish between different<br />
binding modes depending on the nature of the nucleic acid substrate. In: J Mol<br />
Biol 292 (1999), S. 333344 178<br />
[267] Parker, James S.; Parizotto, Eneida A.; Wang, Muhan; Roe, S. M.; Barford, David:<br />
Enhancement of the seed-target recognition step in RNA silencing by a PIWI/MID<br />
domain protein. In: Mol Cell 33 (2009), S. 204214 181<br />
[268] Yang, S. W.; Chen, H.-Y.; Yang, J.; Machida, S.; Chua, Na.-H.; Yuan, Y. A.:<br />
Structure of Arabidopsis HYPONASTIC LEAVES1 and its molecular implications for<br />
miRNA processing. In: Structure 18 (2010), S. 594605 191<br />
[269] Bycroft, M.; Grünert, S.; Murzin, A. G.; Proctor, M.; Johnston, D. S.: NMR<br />
solution structure of a dsRNA binding domain from Drosophila staufen protein reveals<br />
homology to the N-terminal domain of ribosomal protein S5. In: EMBO J 14 (1995),<br />
Jul, Nr. 14, S. 35633571 191<br />
[270] Ramos, A.; Grünert, S.; Adams, J.; Micklem, D. R.; Proctor, M. R.; Freund, S.;<br />
Bycroft, M.; Johnston, D. S.; Varani, G.: RNA recognition by a Staufen doublestranded<br />
RNA-binding domain. In: EMBO J 19 (2000), S. 9971009 191<br />
[271] Liu, Q.; Rand, T. A.; Kalidas, S.; Du, F.; Kim, H.-E.; Smith, D. P.; Wang, X.: R2D2,<br />
a bridge between the initiation and eector steps of the Drosophila RNAi pathway. In:<br />
Science 301 (2003), S. 19211925 192<br />
220