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Journal Abstract Search

328 related items for PubMed ID: 25176647

  • 1. Bicaudal d family adaptor proteins control the velocity of Dynein-based movements.
    Schlager MA, Serra-Marques A, Grigoriev I, Gumy LF, Esteves da Silva M, Wulf PS, Akhmanova A, Hoogenraad CC.
    Cell Rep; 2014 Sep 11; 8(5):1248-56. PubMed ID: 25176647
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  • 3. Role of BicDR in bristle shaft construction and support of BicD functions.
    Jejina A, Ayala Y, Beuchle D, Höhener T, Dörig RE, Vazquez-Pianzola P, Hernández G, Suter B.
    J Cell Sci; 2024 Jan 15; 137(2):. PubMed ID: 38264934
    [Abstract] [Full Text] [Related]

  • 4. Engineered Tug-of-War Between Kinesin and Dynein Controls Direction of Microtubule Based Transport In Vivo.
    Rezaul K, Gupta D, Semenova I, Ikeda K, Kraikivski P, Yu J, Cowan A, Zaliapin I, Rodionov V.
    Traffic; 2016 May 15; 17(5):475-86. PubMed ID: 26843027
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  • 5. Tau directs intracellular trafficking by regulating the forces exerted by kinesin and dynein teams.
    Chaudhary AR, Berger F, Berger CL, Hendricks AG.
    Traffic; 2018 Feb 15; 19(2):111-121. PubMed ID: 29077261
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  • 7. Motor coordination via a tug-of-war mechanism drives bidirectional vesicle transport.
    Hendricks AG, Perlson E, Ross JL, Schroeder HW, Tokito M, Holzbaur EL.
    Curr Biol; 2010 Apr 27; 20(8):697-702. PubMed ID: 20399099
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  • 8. Transport of fungal RAB11 secretory vesicles involves myosin-5, dynein/dynactin/p25, and kinesin-1 and is independent of kinesin-3.
    Peñalva MA, Zhang J, Xiang X, Pantazopoulou A.
    Mol Biol Cell; 2017 Apr 01; 28(7):947-961. PubMed ID: 28209731
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  • 9. Pericentrosomal targeting of Rab6 secretory vesicles by Bicaudal-D-related protein 1 (BICDR-1) regulates neuritogenesis.
    Schlager MA, Kapitein LC, Grigoriev I, Burzynski GM, Wulf PS, Keijzer N, de Graaff E, Fukuda M, Shepherd IT, Akhmanova A, Hoogenraad CC.
    EMBO J; 2010 May 19; 29(10):1637-51. PubMed ID: 20360680
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  • 10. A transient helix in the disordered region of dynein light intermediate chain links the motor to structurally diverse adaptors for cargo transport.
    Celestino R, Henen MA, Gama JB, Carvalho C, McCabe M, Barbosa DJ, Born A, Nichols PJ, Carvalho AX, Gassmann R, Vögeli B.
    PLoS Biol; 2019 Jan 19; 17(1):e3000100. PubMed ID: 30615611
    [Abstract] [Full Text] [Related]

  • 11. Mitochondrial adaptor TRAK2 activates and functionally links opposing kinesin and dynein motors.
    Fenton AR, Jongens TA, Holzbaur ELF.
    Nat Commun; 2021 Jul 28; 12(1):4578. PubMed ID: 34321481
    [Abstract] [Full Text] [Related]

  • 12. Activation of mammalian cytoplasmic dynein in multimotor motility assays.
    Monzon GA, Scharrel L, Santen L, Diez S.
    J Cell Sci; 2018 Nov 26; 132(4):. PubMed ID: 30237223
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  • 14. Assay and properties of rab6 interaction with dynein-dynactin complexes.
    Fuchs E, Short B, Barr FA.
    Methods Enzymol; 2005 Nov 26; 403():607-18. PubMed ID: 16473624
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  • 16. TRAK adaptors regulate the recruitment and activation of dynein and kinesin in mitochondrial transport.
    Canty JT, Hensley A, Aslan M, Jack A, Yildiz A.
    Nat Commun; 2023 Mar 13; 14(1):1376. PubMed ID: 36914620
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  • 18. Bicaudal-D and its role in cargo sorting by microtubule-based motors.
    Dienstbier M, Li X.
    Biochem Soc Trans; 2009 Oct 13; 37(Pt 5):1066-71. PubMed ID: 19754453
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  • 19. Molecular mechanism for recognition of the cargo adapter Rab6GTP by the dynein adapter BicD2.
    Zhao X, Quintremil S, Rodriguez Castro ED, Cui H, Moraga D, Wang T, Vallee RB, Solmaz SR.
    Life Sci Alliance; 2024 Jul 13; 7(7):. PubMed ID: 38719748
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  • 20. Nesprin-2 Recruitment of BicD2 to the Nuclear Envelope Controls Dynein/Kinesin-Mediated Neuronal Migration In Vivo.
    Gonçalves JC, Quintremil S, Yi J, Vallee RB.
    Curr Biol; 2020 Aug 17; 30(16):3116-3129.e4. PubMed ID: 32619477
    [Abstract] [Full Text] [Related]

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