STIFFNESS CHANGES OF THE CUPULA ASSOCIATED WITH THE MECHANICS OF HAIR-CELLS IN THE FISH LATERAL-LINE

S.M. van Netten; SM KHANNA

STIFFNESS CHANGES OF THE CUPULA ASSOCIATED WITH THE MECHANICS OF HAIR-CELLS IN THE FISH LATERAL-LINE

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Abstract

Cupular vibration in the lateral-line canal of fish was measured in response to motion of the fluid in the canal by laser-heterodyne interferometry. The results show that the mechanical output/input ratio of the cupula depends on the stimulus amplitude; the cupula thus behaves nonlinearly. The nonlinearity is due to the hair bundles, since it disappears when the cupula is uncoupled from the underlying hair cells. A model of cupular dynamics in which the behavior of the gating springs of the hair cells is incorporated predicts nonlinear responses that are similar to the measurements, suggesting that the nonlinear behavior of the cupula may be attributed to the opening and closing of the transduction channels of the hair cells.

Original language	English
Pages (from-to)	1549-1553
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	91
Issue number	4
Publication status	Published - 15-Feb-1994

Keywords

NONLINEAR CUPULAR MOTION
LASER INTERFEROMETRY
MECHANORECEPTION
GATING SPRING
MECHANOELECTRICAL TRANSDUCTION
CHANNELS
BUNDLES

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title = "STIFFNESS CHANGES OF THE CUPULA ASSOCIATED WITH THE MECHANICS OF HAIR-CELLS IN THE FISH LATERAL-LINE",

abstract = "Cupular vibration in the lateral-line canal of fish was measured in response to motion of the fluid in the canal by laser-heterodyne interferometry. The results show that the mechanical output/input ratio of the cupula depends on the stimulus amplitude; the cupula thus behaves nonlinearly. The nonlinearity is due to the hair bundles, since it disappears when the cupula is uncoupled from the underlying hair cells. A model of cupular dynamics in which the behavior of the gating springs of the hair cells is incorporated predicts nonlinear responses that are similar to the measurements, suggesting that the nonlinear behavior of the cupula may be attributed to the opening and closing of the transduction channels of the hair cells.",

keywords = "NONLINEAR CUPULAR MOTION, LASER INTERFEROMETRY, MECHANORECEPTION, GATING SPRING, MECHANOELECTRICAL TRANSDUCTION, CHANNELS, BUNDLES",

author = "{van Netten}, S.M. and SM KHANNA",

year = "1994",

month = feb,

day = "15",

language = "English",

volume = "91",

pages = "1549--1553",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

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number = "4",

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TY - JOUR

T1 - STIFFNESS CHANGES OF THE CUPULA ASSOCIATED WITH THE MECHANICS OF HAIR-CELLS IN THE FISH LATERAL-LINE

AU - van Netten, S.M.

AU - KHANNA, SM

PY - 1994/2/15

Y1 - 1994/2/15

N2 - Cupular vibration in the lateral-line canal of fish was measured in response to motion of the fluid in the canal by laser-heterodyne interferometry. The results show that the mechanical output/input ratio of the cupula depends on the stimulus amplitude; the cupula thus behaves nonlinearly. The nonlinearity is due to the hair bundles, since it disappears when the cupula is uncoupled from the underlying hair cells. A model of cupular dynamics in which the behavior of the gating springs of the hair cells is incorporated predicts nonlinear responses that are similar to the measurements, suggesting that the nonlinear behavior of the cupula may be attributed to the opening and closing of the transduction channels of the hair cells.

AB - Cupular vibration in the lateral-line canal of fish was measured in response to motion of the fluid in the canal by laser-heterodyne interferometry. The results show that the mechanical output/input ratio of the cupula depends on the stimulus amplitude; the cupula thus behaves nonlinearly. The nonlinearity is due to the hair bundles, since it disappears when the cupula is uncoupled from the underlying hair cells. A model of cupular dynamics in which the behavior of the gating springs of the hair cells is incorporated predicts nonlinear responses that are similar to the measurements, suggesting that the nonlinear behavior of the cupula may be attributed to the opening and closing of the transduction channels of the hair cells.

KW - NONLINEAR CUPULAR MOTION

KW - LASER INTERFEROMETRY

KW - MECHANORECEPTION

KW - GATING SPRING

KW - MECHANOELECTRICAL TRANSDUCTION

KW - CHANNELS

KW - BUNDLES

M3 - Article

SN - 0027-8424

VL - 91

SP - 1549

EP - 1553

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 4

ER -

STIFFNESS CHANGES OF THE CUPULA ASSOCIATED WITH THE MECHANICS OF HAIR-CELLS IN THE FISH LATERAL-LINE

Abstract

Keywords

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