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Items: 1 to 20 of 97

1.

Probing the pore of the auditory hair cell mechanotransducer channel in turtle.

Farris HE, LeBlanc CL, Goswami J, Ricci AJ.

J Physiol. 2004 Aug 1;558(Pt 3):769-92. Epub 2004 Jun 4.

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Dihydrostreptomycin goes through the mechano-electric transduction channel in chick cochlear hair cells.

Kimitsuki T, Wakasaki T, Nawate A, Komune N, Takaiwa K, Ohashi M, Komune S.

ORL J Otorhinolaryngol Relat Spec. 2009;71(3):157-62. doi: 10.1159/000219677. Epub 2009 May 21.

PMID:
19468245
4.

Intrinsic versus extrinsic voltage sensitivity of blocker interaction with an ion channel pore.

Martínez-François JR, Lu Z.

J Gen Physiol. 2010 Feb;135(2):149-67. doi: 10.1085/jgp.200910324.

5.

Transduction without tip links in cochlear hair cells is mediated by ion channels with permeation properties distinct from those of the mechano-electrical transducer channel.

Marcotti W, Corns LF, Desmonds T, Kirkwood NK, Richardson GP, Kros CJ.

J Neurosci. 2014 Apr 16;34(16):5505-14. doi: 10.1523/JNEUROSCI.4086-13.2014.

6.

Voltage-controlled gating at the intracellular entrance to a hyperpolarization-activated cation channel.

Rothberg BS, Shin KS, Phale PS, Yellen G.

J Gen Physiol. 2002 Jan;119(1):83-91.

7.

Pseudechetoxin binds to the pore turret of cyclic nucleotide-gated ion channels.

Brown RL, Lynch LL, Haley TL, Arsanjani R.

J Gen Physiol. 2003 Dec;122(6):749-60.

8.

Tmc1 Point Mutation Affects Ca2+ Sensitivity and Block by Dihydrostreptomycin of the Mechanoelectrical Transducer Current of Mouse Outer Hair Cells.

Corns LF, Johnson SL, Kros CJ, Marcotti W.

J Neurosci. 2016 Jan 13;36(2):336-49. doi: 10.1523/JNEUROSCI.2439-15.2016.

9.

Calcium permeation of the turtle hair cell mechanotransducer channel and its relation to the composition of endolymph.

Ricci AJ, Fettiplace R.

J Physiol. 1998 Jan 1;506 ( Pt 1):159-73. Erratum in: J Physiol (Lond) 1998 Mar 15;507(Pt 3):939.

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13.

Role of H5 domain in determining pore diameter and ion permeation through cyclic nucleotide-gated channels.

Goulding EH, Tibbs GR, Liu D, Siegelbaum SA.

Nature. 1993 Jul 1;364(6432):61-4.

PMID:
7686276
14.

Dequalinium: a novel, high-affinity blocker of CNGA1 channels.

Rosenbaum T, Islas LD, Carlson AE, Gordon SE.

J Gen Physiol. 2003 Jan;121(1):37-47.

15.

Mechanism of cGMP-gated channel block by intracellular polyamines.

Guo D, Lu Z.

J Gen Physiol. 2000 Jun;115(6):783-98.

16.

Localisation of the mechanotransducer channels in mammalian cochlear hair cells provides clues to their gating.

Furness DN, Hackney CM, Evans MG.

J Physiol. 2010 Mar 1;588(Pt 5):765-72. doi: 10.1113/jphysiol.2009.179614. Epub 2009 Dec 21. Review.

17.

All-trans-retinal is a closed-state inhibitor of rod cyclic nucleotide-gated ion channels.

McCabe SL, Pelosi DM, Tetreault M, Miri A, Nguitragool W, Kovithvathanaphong P, Mahajan R, Zimmerman AL.

J Gen Physiol. 2004 May;123(5):521-31. Epub 2004 Apr 12.

18.

Phosphoinositol-4,5-Bisphosphate Regulates Auditory Hair-Cell Mechanotransduction-Channel Pore Properties and Fast Adaptation.

Effertz T, Becker L, Peng AW, Ricci AJ.

J Neurosci. 2017 Nov 29;37(48):11632-11646. doi: 10.1523/JNEUROSCI.1351-17.2017. Epub 2017 Oct 24.

PMID:
29066559
19.

Emerging issues of connexin channels: biophysics fills the gap.

Harris AL.

Q Rev Biophys. 2001 Aug;34(3):325-472. Review. Erratum in: Q Rev Biophys 2002 Feb;35(1):109.

PMID:
11838236
20.

A virtual hair cell, I: addition of gating spring theory into a 3-D bundle mechanical model.

Nam JH, Cotton JR, Grant W.

Biophys J. 2007 Mar 15;92(6):1918-28. Epub 2007 Jan 5.

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