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Keywords: hair cellsClose
Dwayne D. Simmons, Rachel Lohr, Helena Wotring, Miriam D. Burton, Rebecca A. Hooper, Richard A. Baird
J Exp Biol (2014) 217 (9): 1626–1636.
Published: 1 May 2014
... of the sensory epithelium. Second, we compared DPOAE (2 f 1 – f 2 ) responses with histopathologic changes occurring in bullfrogs after noise exposure. Consistent morphological damage, such as fragmented hair cells and missing bundles, as well as elimination of DPOAE responses were seen only after very high...
J Exp Biol (2013) 216 (6): 1075–1084.
Published: 15 March 2013
.... Additionally, saccule hair cell densities were compared across reproductive groups. Auditory threshold was evaluated in terms of pressure and particle acceleration, and response amplitude and onset latency were measured at 10 dB above threshold. Relative to males, females displayed lower auditory thresholds...
J Exp Biol (2010) 213 (22): 3769–3777.
Published: 15 November 2010
... for correspondence ( email@example.com ) 23 8 2010 © 2010. 2010 lateral line system hair cells predator–prey interaction density specific gravity A broad diversity of fish prey on smaller fish using suction feeding ( Lauder, 1980 ; Ferry-Graham and Lauder, 2001 ; Juanes et al., 2002...
J Exp Biol (2010) 213 (8): 1309–1319.
Published: 15 April 2010
.... Furthermore, we repeated these measurements after pharmacologically ablating the lateral line hair cells and found that drag reduction was not adversely influenced by disabling the lateral line system. Therefore, flow sensing does not facilitate active drag reduction. However, we discovered that ablating...
J Exp Biol (2008) 211 (13): 2105–2115.
Published: 1 July 2008
..., A. et al. ( 2004 ). TRPA1 is a candidate for the mechanosensitive transduction channel of vertebrate hair cells. Nature 432 , 723 -730. Ćurčič-Blake, B. and van Netten, S. M. ( 2006 ). Source location encoding in the fish lateral line canal. J. Exp. Biol. 209 , 1548 -1559. Dijkgraaf, S...
J Exp Biol (2007) 210 (23): 4244–4253.
Published: 1 December 2007
... of individual neuromasts. Each neuromast possesses a gelatinous cupula that is anchored to hair cells by kinocilia. Using quasi-static bending tests of the proximal region of the cupula, we found that flexural stiffness is proportional to the number of hair cells, and consequently the number of kinocilia...