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Journal Abstract Search

315 related items for PubMed ID: 26609813

  • 1. De novo centriole formation in human cells is error-prone and does not require SAS-6 self-assembly.
    Wang WJ, Acehan D, Kao CH, Jane WN, Uryu K, Tsou MF.
    Elife; 2015 Nov 26; 4():. PubMed ID: 26609813
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  • 2. SAS-6 assembly templated by the lumen of cartwheel-less centrioles precedes centriole duplication.
    Fong CS, Kim M, Yang TT, Liao JC, Tsou MF.
    Dev Cell; 2014 Jul 28; 30(2):238-45. PubMed ID: 25017693
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  • 3. Centriolar SAS-7 acts upstream of SPD-2 to regulate centriole assembly and pericentriolar material formation.
    Sugioka K, Hamill DR, Lowry JB, McNeely ME, Enrick M, Richter AC, Kiebler LE, Priess JR, Bowerman B.
    Elife; 2017 Jan 16; 6():. PubMed ID: 28092264
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  • 4. A Short CEP135 Splice Isoform Controls Centriole Duplication.
    Dahl KD, Sankaran DG, Bayless BA, Pinter ME, Galati DF, Heasley LR, Giddings TH, Pearson CG.
    Curr Biol; 2015 Oct 05; 25(19):2591-6. PubMed ID: 26412126
    [Abstract] [Full Text] [Related]

  • 5. SAS-6 Association with γ-Tubulin Ring Complex Is Required for Centriole Duplication in Human Cells.
    Gupta H, Rajeev R, Sasmal R, Radhakrishnan RM, Anand U, Chandran H, Aparna NR, Agasti S, Manna TK.
    Curr Biol; 2020 Jun 22; 30(12):2395-2403.e4. PubMed ID: 32442461
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  • 7. Interaction between the Caenorhabditis elegans centriolar protein SAS-5 and microtubules facilitates organelle assembly.
    Bianchi S, Rogala KB, Dynes NJ, Hilbert M, Leidel SA, Steinmetz MO, Gönczy P, Vakonakis I.
    Mol Biol Cell; 2018 Mar 15; 29(6):722-735. PubMed ID: 29367435
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  • 8. DSas-6 and Ana2 coassemble into tubules to promote centriole duplication and engagement.
    Stevens NR, Roque H, Raff JW.
    Dev Cell; 2010 Dec 14; 19(6):913-9. PubMed ID: 21145506
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  • 10. PPP1R35 ensures centriole homeostasis by promoting centriole-to-centrosome conversion.
    Fong CS, Ozaki K, Tsou MB.
    Mol Biol Cell; 2018 Nov 15; 29(23):2801-2808. PubMed ID: 30230954
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  • 11. Characterisation of centriole biogenesis during multiciliation in planarians.
    Li Y, Guo F, Jing Q, Zhu X, Yan X.
    Biol Cell; 2020 Dec 15; 112(12):398-408. PubMed ID: 32776587
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  • 15. PLK4-phosphorylated NEDD1 facilitates cartwheel assembly and centriole biogenesis initiations.
    Chi W, Wang G, Xin G, Jiang Q, Zhang C.
    J Cell Biol; 2021 Jan 04; 220(1):. PubMed ID: 33351100
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  • 16. SAS-6 engineering reveals interdependence between cartwheel and microtubules in determining centriole architecture.
    Hilbert M, Noga A, Frey D, Hamel V, Guichard P, Kraatz SH, Pfreundschuh M, Hosner S, Flückiger I, Jaussi R, Wieser MM, Thieltges KM, Deupi X, Müller DJ, Kammerer RA, Gönczy P, Hirono M, Steinmetz MO.
    Nat Cell Biol; 2016 Apr 04; 18(4):393-403. PubMed ID: 26999736
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  • 17. HsSAS-6-dependent cartwheel assembly ensures stabilization of centriole intermediates.
    Yoshiba S, Tsuchiya Y, Ohta M, Gupta A, Shiratsuchi G, Nozaki Y, Ashikawa T, Fujiwara T, Natsume T, Kanemaki MT, Kitagawa D.
    J Cell Sci; 2019 Jun 20; 132(12):. PubMed ID: 31164447
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  • 18. Kinetic and structural roles for the surface in guiding SAS-6 self-assembly to direct centriole architecture.
    Banterle N, Nievergelt AP, de Buhr S, Hatzopoulos GN, Brillard C, Andany S, Hübscher T, Sorgenfrei FA, Schwarz US, Gräter F, Fantner GE, Gönczy P.
    Nat Commun; 2021 Oct 26; 12(1):6180. PubMed ID: 34702818
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  • 19. The homo-oligomerisation of both Sas-6 and Ana2 is required for efficient centriole assembly in flies.
    Cottee MA, Muschalik N, Johnson S, Leveson J, Raff JW, Lea SM.
    Elife; 2015 May 23; 4():e07236. PubMed ID: 26002084
    [Abstract] [Full Text] [Related]

  • 20. The Rise of the Cartwheel: Seeding the Centriole Organelle.
    Guichard P, Hamel V, Gönczy P.
    Bioessays; 2018 Apr 23; 40(4):e1700241. PubMed ID: 29508910
    [Abstract] [Full Text] [Related]

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