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25. Boland A , Huntzinger E , Schmidt S , Izaurralde E und Weichenrieder O (2011) Crystal structure of the MID-PIWI lobe of a eukaryotic Argonaute protein Proc Natl Acad Sci U S A 108(26) 10466-71.
CiteID: BolandHSIW2011
24. Sauer E und Weichenrieder O (2011) Structural basis for RNA 3'-end recognition by Hfq Proc Natl Acad Sci U S A 108(32) 13065-70.
CiteID: SauerW2011
23. Khazina E , Truffault V , Buttner R , Schmidt S , Coles M und Weichenrieder O (2011) Trimeric structure and flexibility of the L1ORF1 protein in human L1 retrotransposition Nat Struct Mol Biol 18(9) 1006-14.
CiteID: KhazinaTBSCW2011
22. Boland A , Tritschler F , Heimstadt S , Izaurralde E und Weichenrieder O (2010) Crystal structure and ligand binding of the MID domain of a eukaryotic Argonaute protein EMBO Rep 11(7) 522-7.
CiteID: BolandTHIW2010
21. Huang C R , Schneider A M , Lu Y , Niranjan T , Shen P , Robinson M A , Steranka J P , Valle D , Civin C I , Wang T , Wheelan S J , Ji H , Boeke J D und Burns K H (2010) Mobile interspersed repeats are major structural variants in the human genome Cell 141(7) 1171-82.
20. Braun J E , Tritschler F , Haas G , Igreja C , Truffault V , Weichenrieder O und Izaurralde E (2010) The C-terminal alpha-alpha superhelix of Pat is required for mRNA decapping in metazoa EMBO J 29(14) 2368-80.
CiteID: BraunTHITWI2010
19. Tritschler F , Braun J E , Motz C , Igreja C , Haas G , Truffault V , Izaurralde E und Weichenrieder O (2009) DCP1 forms asymmetric trimers to assemble into active mRNA decapping complexes in metazoa Proc Natl Acad Sci U S A 106(51) 21591-6.
CiteID: TritschlerBMIHTIW2009
18. Fernandez-Santiago R , Hoenig S , Lichtner P , Sperfeld A D , Sharma M , Berg D , Weichenrieder O , Illig T , Eger K , Meyer T , Anneser J , Munch C , Zierz S , Gasser T und Ludolph A (2009) Identification of novel Angiogenin (ANG) gene missense variants in German patients with amyotrophic lateral sclerosis J Neurol 256(8) 1337-1342.
CiteID: FernandezSantiagoHLSSBWIEMAMZGL2009
17. Khazina E und Weichenrieder O (2009) Non-LTR retrotransposons encode noncanonical RRM domains in their first open reading frame Proc Natl Acad Sci U S A 106(3) 731-6.
CiteID: KhazinaW2009
16. Schneider A M , Duffield A S , Symer D E und Burns K H (2009) Roles of retrotransposons in benign and malignant hematologic disease Cellscience 6(2) 121-145.
CiteID: SchneiderDSB2009
15. Tritschler F , Braun J E , Eulalio A , Truffault V , Izaurralde E und Weichenrieder O (2009) Structural basis for the mutually exclusive anchoring of P body components EDC3 and Tral to the DEAD box protein DDX6/Me31B Mol Cell 33(5) 661-8.
CiteID: TritschlerBETIW2009
14. Eulalio A , Tritschler F , Buttner R , Weichenrieder O , Izaurralde E und Truffault V (2009) The RRM domain in GW182 proteins contributes to miRNA-mediated gene silencing Nucleic Acids Res 37(9) 2974-83.
CiteID: EulalioTBWIT2009
13. Bennett E A , Keller H , Mills R E , Schmidt S , Moran J V , Weichenrieder O und Devine S E (2008) Active Alu retrotransposons in the human genome Genome Res 18(12) 1875-83.
CiteID: BennettKMSMWD2008
12. Repanas K , Zingler N , Layer L E , Schumann G G , Perrakis A und Weichenrieder O (2007) Determinants for DNA target structure selectivity of the human LINE-1 retrotransposon endonuclease Nucleic Acids Res 35(14) 4914-26.
CiteID: RepanasZLSPW2007
11. Buchwald G , van der Stoop P , Weichenrieder O , Perrakis A , van Lohuizen M und Sixma T K (2006) Structure and E3-ligase activity of the Ring-Ring complex of polycomb proteins Bmi1 and Ring1b EMBO J 25(11) 2465-74.
CiteID: BuchwaldvWPvS2006
10. Müller M , Weigand J E , Weichenrieder O und Suess B (2006) Thermodynamic characterization of an engineered tetracycline-binding riboswitch Nucleic Acids Res 34(9) 2607-17.
CiteID: MullerWWS2006
9. Zingler N , Weichenrieder O und Schumann G G (2005) APE-type non-LTR retrotransposons: determinants involved in target site recognition Cytogenet Genome Res 110(1-4) 250-68.
CiteID: ZinglerWS2005
8. Huck L , Scherrer A , Terzi L , Johnson A E , Bernstein H D , Cusack S , Weichenrieder O und Strub K (2004) Conserved tertiary base pairing ensures proper RNA folding and efficient assembly of the signal recognition particle Alu domain Nucleic Acids Res 32(16) 4915-24.
CiteID: HuckSTJBCWS2004
7. Weichenrieder O , Repanas K und Perrakis A (2004) Crystal structure of the targeting endonuclease of the human LINE-1 retrotransposon Structure 12(6) 975-86.
CiteID: WeichenriederRP2004
6. Wild K , Weichenrieder O , Strub K , Sinning I und Cusack S (2002) Towards the structure of the mammalian signal recognition particle Curr Opin Struct Biol 12(1) 72-81.
CiteID: WildWSSC2002
5. Weichenrieder O , Stehlin C , Kapp U , Birse D E , Timmins P A , Strub K und Cusack S (2001) Hierarchical assembly of the Alu domain of the mammalian signal recognition particle RNA 7(5) 731-40.
CiteID: WeichenriederSKBTSC2001
4. Weichenrieder O , Wild K , Strub K und Cusack S (2000) Structure and assembly of the Alu domain of the mammalian signal recognition particle Nature 408(6809) 167-73.
CiteID: WeichenriederWSC2000
3. Wild K , Weichenrieder O , Leonard G A und Cusack S (1999) The 2 A structure of helix 6 of the human signal recognition particle RNA Structure 7(11) 1345-52.
CiteID: WildWLC1999
2. Weichenrieder O , Kapp U , Cusack S und Strub K (1997) Identification of a minimal Alu RNA folding domain that specifically binds SRP9/14 RNA 3(11) 1262-74.
CiteID: WeichenriederKCS1997
1. Jones J T , Barnes C L , Lietzke S E , Weichenrieder O , Doudna J A und Kundrot C E (1996) Preliminary X-ray diffraction studies of an RNA pseudoknot that inhibits HIV-1 reverse transcriptase Acta Crystallogr D Biol Crystallogr 52(Pt 5) 1018-20.
CiteID: JonesBLWDK1996

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