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Journal Abstract Search

704 related items for PubMed ID: 22020280

  • 1. The endonuclease activity of Mili fuels piRNA amplification that silences LINE1 elements.
    De Fazio S, Bartonicek N, Di Giacomo M, Abreu-Goodger C, Sankar A, Funaya C, Antony C, Moreira PN, Enright AJ, O'Carroll D.
    Nature; 2011 Oct 23; 480(7376):259-63. PubMed ID: 22020280
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  • 2. Miwi catalysis is required for piRNA amplification-independent LINE1 transposon silencing.
    Reuter M, Berninger P, Chuma S, Shah H, Hosokawa M, Funaya C, Antony C, Sachidanandam R, Pillai RS.
    Nature; 2011 Nov 27; 480(7376):264-7. PubMed ID: 22121019
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  • 3. MIWI2 and MILI Have Differential Effects on piRNA Biogenesis and DNA Methylation.
    Manakov SA, Pezic D, Marinov GK, Pastor WA, Sachidanandam R, Aravin AA.
    Cell Rep; 2015 Aug 25; 12(8):1234-43. PubMed ID: 26279574
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  • 4. Distinct Roles of RNA Helicases MVH and TDRD9 in PIWI Slicing-Triggered Mammalian piRNA Biogenesis and Function.
    Wenda JM, Homolka D, Yang Z, Spinelli P, Sachidanandam R, Pandey RR, Pillai RS.
    Dev Cell; 2017 Jun 19; 41(6):623-637.e9. PubMed ID: 28633017
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  • 5. Exonuclease Domain-Containing 1 Enhances MIWI2 piRNA Biogenesis via Its Interaction with TDRD12.
    Pandey RR, Homolka D, Olotu O, Sachidanandam R, Kotaja N, Pillai RS.
    Cell Rep; 2018 Sep 25; 24(13):3423-3432.e4. PubMed ID: 30257204
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  • 6. SPOCD1 is an essential executor of piRNA-directed de novo DNA methylation.
    Zoch A, Auchynnikava T, Berrens RV, Kabayama Y, Schöpp T, Heep M, Vasiliauskaitė L, Pérez-Rico YA, Cook AG, Shkumatava A, Rappsilber J, Allshire RC, O'Carroll D.
    Nature; 2020 Aug 25; 584(7822):635-639. PubMed ID: 32674113
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  • 8. PIWI Slicing and EXD1 Drive Biogenesis of Nuclear piRNAs from Cytosolic Targets of the Mouse piRNA Pathway.
    Yang Z, Chen KM, Pandey RR, Homolka D, Reuter M, Janeiro BK, Sachidanandam R, Fauvarque MO, McCarthy AA, Pillai RS.
    Mol Cell; 2016 Jan 07; 61(1):138-52. PubMed ID: 26669262
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  • 10. A role for Fkbp6 and the chaperone machinery in piRNA amplification and transposon silencing.
    Xiol J, Cora E, Koglgruber R, Chuma S, Subramanian S, Hosokawa M, Reuter M, Yang Z, Berninger P, Palencia A, Benes V, Penninger J, Sachidanandam R, Pillai RS.
    Mol Cell; 2012 Sep 28; 47(6):970-9. PubMed ID: 22902560
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  • 13. A piRNA pathway primed by individual transposons is linked to de novo DNA methylation in mice.
    Aravin AA, Sachidanandam R, Bourc'his D, Schaefer C, Pezic D, Toth KF, Bestor T, Hannon GJ.
    Mol Cell; 2008 Sep 26; 31(6):785-99. PubMed ID: 18922463
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  • 14. PNLDC1 catalysis and postnatal germline function are required for piRNA trimming, LINE1 silencing, and spermatogenesis in mice.
    Wei C, Yan X, Mann JM, Geng R, Wang Q, Xie H, Demireva EY, Sun L, Ding D, Chen C.
    PLoS Genet; 2024 Sep 26; 20(9):e1011429. PubMed ID: 39312580
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  • 15. Inherited defects of piRNA biogenesis cause transposon de-repression, impaired spermatogenesis, and human male infertility.
    Stallmeyer B, Bühlmann C, Stakaitis R, Dicke AK, Ghieh F, Meier L, Zoch A, MacKenzie MacLeod D, Steingröver J, Okutman Ö, Fietz D, Pilatz A, Riera-Escamilla A, Xavier MJ, Ruckert C, Di Persio S, Neuhaus N, Gurbuz AS, Şalvarci A, Le May N, McEleny K, Friedrich C, van der Heijden G, Wyrwoll MJ, Kliesch S, Veltman JA, Krausz C, Viville S, Conrad DF, O'Carroll D, Tüttelmann F.
    Nat Commun; 2024 Aug 09; 15(1):6637. PubMed ID: 39122675
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  • 17. Mitochondrial membrane-based initial separation of MIWI and MILI functions during pachytene piRNA biogenesis.
    Ding D, Liu J, Dong K, Melnick AF, Latham KE, Chen C.
    Nucleic Acids Res; 2019 Mar 18; 47(5):2594-2608. PubMed ID: 30590800
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