A citation-based method for searching scientific literature

Frances L Meredith, Tim A Benke, Katherine J Rennie. J Assoc Res Otolaryngol 2012
Times Cited: 25







List of co-cited articles
232 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Molecular microdomains in a sensory terminal, the vestibular calyx ending.
Anna Lysakowski, Sophie Gaboyard-Niay, Irina Calin-Jageman, Shilpa Chatlani, Steven D Price, Ruth Anne Eatock. J Neurosci 2011
84
76

M-like K+ currents in type I hair cells and calyx afferent endings of the developing rat utricle.
Karen M Hurley, Sophie Gaboyard, Meng Zhong, Steven D Price, Julian R A Wooltorton, Anna Lysakowski, Ruth Anne Eatock. J Neurosci 2006
72
68

Voltage-dependent currents in isolated vestibular afferent calyx terminals.
Katherine J Rennie, Michele A Streeter. J Neurophysiol 2006
48
64

Vestibular hair cells and afferents: two channels for head motion signals.
Ruth Anne Eatock, Jocelyn E Songer. Annu Rev Neurosci 2011
134
60

Potassium accumulation between type I hair cells and calyx terminals in mouse crista.
Rebecca Lim, Angela E Kindig, Scott W Donne, Robert J Callister, Alan M Brichta. Exp Brain Res 2011
48
56

Tuning and timing in mammalian type I hair cells and calyceal synapses.
Jocelyn E Songer, Ruth Anne Eatock. J Neurosci 2013
69
56



Ion channels set spike timing regularity of mammalian vestibular afferent neurons.
Radha Kalluri, Jingbing Xue, Ruth Anne Eatock. J Neurophysiol 2010
58
48


Intercellular K⁺ accumulation depolarizes Type I vestibular hair cells and their associated afferent nerve calyx.
D Contini, V Zampini, E Tavazzani, J Magistretti, G Russo, I Prigioni, S Masetto. Neuroscience 2012
28
44

Developmental changes in two voltage-dependent sodium currents in utricular hair cells.
Julian R A Wooltorton, Sophie Gaboyard, Karen M Hurley, Steven D Price, Jasmine L Garcia, Meng Zhong, Anna Lysakowski, Ruth Anne Eatock. J Neurophysiol 2007
47
44

K+ currents in isolated vestibular afferent calyx terminals.
Ritu Dhawan, Scott E Mann, Frances L Meredith, Katherine J Rennie. J Assoc Res Otolaryngol 2010
20
55

Evidence that protons act as neurotransmitters at vestibular hair cell-calyx afferent synapses.
Stephen M Highstein, Gay R Holstein, Mary Anne Mann, Richard D Rabbitt. Proc Natl Acad Sci U S A 2014
42
44



Quantal and nonquantal transmission in calyx-bearing fibers of the turtle posterior crista.
Joseph C Holt, Shilpa Chatlani, Anna Lysakowski, Jay M Goldberg. J Neurophysiol 2007
42
40

Postnatal expression of an apamin-sensitive k(ca) current in vestibular calyx terminals.
Frances L Meredith, Gang Q Li, Katherine J Rennie. J Membr Biol 2011
18
55

Glutamatergic signaling at the vestibular hair cell calyx synapse.
Soroush G Sadeghi, Sonja J Pyott, Zhou Yu, Elisabeth Glowatzki. J Neurosci 2014
37
40


Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
Shinichi Iwasaki, Yasuhiro Chihara, Yukari Komuta, Ken Ito, Yoshinori Sahara. J Neurophysiol 2008
46
36

Zonal variations in K+ currents in vestibular crista calyx terminals.
Frances L Meredith, Katherine J Rennie. J Neurophysiol 2015
17
52



HCN channels expressed in the inner ear are necessary for normal balance function.
Geoffrey C Horwitz, Jessica R Risner-Janiczek, Sherri M Jones, Jeffrey R Holt. J Neurosci 2011
36
32





AMPA type glutamate receptor mediates neurotransmission at turtle vestibular calyx synapse.
Jérémie Bonsacquet, Aurore Brugeaud, Vincent Compan, Gilles Desmadryl, Christian Chabbert. J Physiol 2006
33
28




Voltage-gated calcium channel currents in type I and type II hair cells isolated from the rat crista.
Hong Bao, Weng Hoe Wong, Jay M Goldberg, Ruth Anne Eatock. J Neurophysiol 2003
63
28


Rotational responses of vestibular-nerve afferents innervating the semicircular canals in the C57BL/6 mouse.
David M Lasker, Gyu Cheol Han, Hong Ju Park, Lloyd B Minor. J Assoc Res Otolaryngol 2008
57
24


Molecular identity, ontogeny, and cAMP modulation of the hyperpolarization-activated current in vestibular ganglion neurons.
Angélica Almanza, Enoch Luis, Francisco Mercado, Rosario Vega, Enrique Soto. J Neurophysiol 2012
14
42

Ca2+-activated K+-current density is correlated with soma size in rat vestibular-afferent neurons in culture.
Agenor Limón, Cristina Pérez, Rosario Vega, Enrique Soto. J Neurophysiol 2005
46
24

The septate junction protein caspr is required for structural support and retention of KCNQ4 at calyceal synapses of vestibular hair cells.
Aurea D Sousa, Leonardo R Andrade, Felipe T Salles, Anilkumar M Pillai, Elizabeth D Buttermore, Manzoor A Bhat, Bechara Kachar. J Neurosci 2009
22
27

Comparative morphology of rodent vestibular periphery. II. Cristae ampullares.
Sapan S Desai, Hussain Ali, Anna Lysakowski. J Neurophysiol 2005
75
24

The quantal component of synaptic transmission from sensory hair cells to the vestibular calyx.
Stephen M Highstein, Mary Anne Mann, Gay R Holstein, Richard D Rabbitt. J Neurophysiol 2015
10
60

Channeling your inner ear potassium: K(+) channels in vestibular hair cells.
Frances L Meredith, Katherine J Rennie. Hear Res 2016
19
31

Muscarinic Acetylcholine Receptors and M-Currents Underlie Efferent-Mediated Slow Excitation in Calyx-Bearing Vestibular Afferents.
J Chris Holt, Paivi M Jordan, Anna Lysakowski, Amit Shah, Kathy Barsz, Donatella Contini. J Neurosci 2017
25
24


Neural variability, detection thresholds, and information transmission in the vestibular system.
Soroush G Sadeghi, Maurice J Chacron, Michael C Taylor, Kathleen E Cullen. J Neurosci 2007
168
20

Two modes of release shape the postsynaptic response at the inner hair cell ribbon synapse.
Lisa Grant, Eunyoung Yi, Elisabeth Glowatzki. J Neurosci 2010
122
20

Distribution of high-conductance calcium-activated potassium channels in rat vestibular epithelia.
Felix E Schweizer, David Savin, Cindy Luu, David R Sultemeier, Larry F Hoffman. J Comp Neurol 2009
24
20




Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.