Bulletin of the American Physical Society
APS March Meeting 2019
Volume 64, Number 2
Monday–Friday, March 4–8, 2019; Boston, Massachusetts
Session K51: Information Processing in Sensory Systems
8:00 AM–11:00 AM,
Wednesday, March 6, 2019
BCEC
Room: 253A
Sponsoring
Unit:
DBIO
Chair: Thierry Emonet, Yale Univ
Abstract: K51.00001 : Making an effort to listen: mechanical amplification by ion channels and myosin molecules in hair cells of the inner ear
8:00 AM–8:36 AM
Presenter:
Jim Hudspeth
(Howard Hughes Medical Institute, Rockefeller University)
Author:
Jim Hudspeth
(Howard Hughes Medical Institute, Rockefeller University)
Uniquely among our sensory receptors, the hair cell is not a passive recipient of stimuli, but instead uses an active process to enhance its inputs. This active process amplifies mechanical stimuli by as much as a thousandfold, greatly increasing our sensitivity to weak sounds. Amplification is accompanied by frequency tuning, whichyields a frequency resolution of less than 0.2 %, one thirtieth of the interval between piano keys. The active process produces a compressive nonlinearity that renders the ear sensitive to sounds over a millionfold range of amplitude or a trillionfold range of power. Finally, the active process can be so exuberant as to become unstable; as a result, in a very quiet environment most normal ears spontaneously emit sound!
As a result of the cooperative gating of mechanically sensitive ion channels, a hair bundle is dynamically unstable: the relation between the bundle's displacement and the force required to accomplish it possesses two stable fixed points separated by a region of negative stiffness.This situation fosters amplification or oscillation when the hair bundle is pushed into its region of instability by molecular motors, specifically the myosin molecules associated with adaptation of the transduction apparatus to sustained stimuli.Experiments on individual hair bundles indicate that the bundle's operation near this instability—a Hopf bifurcation—accounts for the four characteristics of the active process.
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