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Journal Abstract Search

326 related items for PubMed ID: 17643118

  • 1. Exocytotic catecholamine release is not associated with cation flux through channels in the vesicle membrane but Na+ influx through the fusion pore.
    Gong LW, de Toledo GA, Lindau M.
    Nat Cell Biol; 2007 Aug; 9(8):915-22. PubMed ID: 17643118
    [Abstract] [Full Text] [Related]

  • 2. Interplay between membrane dynamics, diffusion and swelling pressure governs individual vesicular exocytotic events during release of adrenaline by chromaffin cells.
    Amatore C, Bouret Y, Travis ER, Wightman RM.
    Biochimie; 2000 May; 82(5):481-96. PubMed ID: 10865134
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  • 3. Correlation between vesicle quantal size and fusion pore release in chromaffin cell exocytosis.
    Amatore C, Arbault S, Bonifas I, Bouret Y, Erard M, Ewing AG, Sombers LA.
    Biophys J; 2005 Jun; 88(6):4411-20. PubMed ID: 15792983
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  • 4. Fusion pores with low conductance are cation selective.
    Delacruz JB, Sharma S, Rathore SS, Huang M, Lenz JS, Lindau M.
    Cell Rep; 2021 Aug 24; 36(8):109580. PubMed ID: 34433034
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  • 8. Small molecules demonstrate the role of dynamin as a bi-directional regulator of the exocytosis fusion pore and vesicle release.
    Jackson J, Papadopulos A, Meunier FA, McCluskey A, Robinson PJ, Keating DJ.
    Mol Psychiatry; 2015 Jul 24; 20(7):810-9. PubMed ID: 25939402
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  • 10. Full-fusion and kiss-and-run in chromaffin cells controlled by irreversible vesicle size-dependent fusion pore transitions.
    Chang CW, Hsiao YT, Scheuer KS, Jackson MB.
    Cell Calcium; 2022 Jul 24; 105():102606. PubMed ID: 35636152
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  • 11. Ion interaction at the pore of Lc-type Ca2+ channel is sufficient to mediate depolarization-induced exocytosis.
    Lerner I, Trus M, Cohen R, Yizhar O, Nussinovitch I, Atlas D.
    J Neurochem; 2006 Apr 24; 97(1):116-27. PubMed ID: 16515555
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  • 13. Alpha-synuclein overexpression in PC12 and chromaffin cells impairs catecholamine release by interfering with a late step in exocytosis.
    Larsen KE, Schmitz Y, Troyer MD, Mosharov E, Dietrich P, Quazi AZ, Savalle M, Nemani V, Chaudhry FA, Edwards RH, Stefanis L, Sulzer D.
    J Neurosci; 2006 Nov 15; 26(46):11915-22. PubMed ID: 17108165
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  • 14. Huntingtin-associated protein 1 regulates exocytosis, vesicle docking, readily releasable pool size and fusion pore stability in mouse chromaffin cells.
    Mackenzie KD, Duffield MD, Peiris H, Phillips L, Zanin MP, Teo EH, Zhou XF, Keating DJ.
    J Physiol; 2014 Apr 01; 592(7):1505-18. PubMed ID: 24366265
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  • 15. High calcium concentrations shift the mode of exocytosis to the kiss-and-run mechanism.
    Alés E, Tabares L, Poyato JM, Valero V, Lindau M, Alvarez de Toledo G.
    Nat Cell Biol; 1999 May 01; 1(1):40-4. PubMed ID: 10559862
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  • 16. Differential Co-release of Two Neurotransmitters from a Vesicle Fusion Pore in Mammalian Adrenal Chromaffin Cells.
    Zhang Q, Liu B, Wu Q, Liu B, Li Y, Sun S, Wang Y, Wu X, Chai Z, Jiang X, Liu X, Hu M, Wang Y, Yang Y, Wang L, Kang X, Xiong Y, Zhou Y, Chen X, Zheng L, Zhang B, Wang C, Zhu F, Zhou Z.
    Neuron; 2019 Apr 03; 102(1):173-183.e4. PubMed ID: 30773347
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  • 17. Patch amperometry: high-resolution measurements of single-vesicle fusion and release.
    Dernick G, Gong LW, Tabares L, Alvarez de Toledo G, Lindau M.
    Nat Methods; 2005 Sep 03; 2(9):699-708. PubMed ID: 16118641
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  • 18. Ca(2+)-dependent activator protein for secretion is critical for the fusion of dense-core vesicles with the membrane in calf adrenal chromaffin cells.
    Elhamdani A, Martin TF, Kowalchyk JA, Artalejo CR.
    J Neurosci; 1999 Sep 01; 19(17):7375-83. PubMed ID: 10460244
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  • 19. Rab3A negatively regulates activity-dependent modulation of exocytosis in bovine adrenal chromaffin cells.
    Thiagarajan R, Tewolde T, Li Y, Becker PL, Rich MM, Engisch KL.
    J Physiol; 2004 Mar 01; 555(Pt 2):439-57. PubMed ID: 14694148
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  • 20. Phases of the exocytotic fusion pore.
    Álvarez de Toledo G, Montes MÁ, Montenegro P, Borges R.
    FEBS Lett; 2018 Nov 01; 592(21):3532-3541. PubMed ID: 30169901
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