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Biophys J, June 2002, p. 2982-2994, Vol. 82, No. 6
Ottawa Health Research Institute, Ottawa, Ontario K1Y 4E9, Canada
At low Popen(V)
Shaker exhibits pronounced stretch-activation. Possible
explanations for Shaker's sensitivity to tension
include 1) Shaker channels are sufficiently distensible
that stretch produces novel channel states and 2) Shaker
channels expand in the plane of the membrane during voltage gating. For
channels expressed in oocytes, we compared effects of patch stretch on
Shaker and mutants that retain their voltage-gating
ability but activate sluggishly because all or most of the S3-S4
linker has been deleted. Deletants had 10, 5, or 0 amino acid (aa)
linkers, whereas wild-type is 31 aa . In deletants, though activation
is exceptionally slow, slow inactivation is exceptionally quick; the
resulting kinetic match was a bonus that allowed effects of stretch to
be followed simultaneously in both processes. With the intact linker,
an ~3 orders of magnitude mismatch in the two processes makes this
impracticable. Standard stretch stimuli increased the rates and extent
of activation by about the same degree in wild type and deletants, with
effects especially pronounced near the foot of
G(V). In deletants (where slow
inactivation is strongly coupled to activation) stretch also accelerated slow inactivation. Maximum conductances were unaffected by
stretch in all variants. In ramp clamp dose experiments, near-lytic patch stretch acted, for all variants, like a ~10 mV hyperpolarizing shift. These results suggested that, whether basal rates were high
(wild type) or low (deletants), stretch acted by facilitating voltage-dependent activation. Channel activity was therefore simulated with/without "tension," tension being simulated via rate changes at
voltage-dependent closed-closed transitions that might involve in-plane
expansion (explanation 2). Simulated
Popen arising from ~2 kT of
"mechanical gating energy" mimicked experimental effects seen with
comfortably sub-lytic stretch.
Biophys J, June 2002, p. 2982-2994, Vol. 82, No. 6
© 2002 by the Biophysical Society 0006-3495/02/06/2982/13 $2.00
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