Force propagation and force generation in cells

## Abstract Mammalian outer hair cells generate mechanical forces at acoustic frequencies and can thus amplify the sound stimulus within the inner ear. The mechanism of force generation depends upon the plasma membrane potential but not upon either calcium or ATP. Forces are generated in the latera

## Abstract It is known that there is a close relation between Prikry forcing and the iteration of ultrapowers: If __U__ is a normal ultrafilter on a measurable cardinal __κ__ and 〈__M__~__n__~, __j__~__m,n__~ | __m__ ≤ __n__ ≤ __ω__〉 is the iteration of ultrapowers of __V__ by __U__, then the sequ

## Abstract The current study determined the dose–response relationship for inhibition of muscle force of two commercially available botulinum neurotoxin type‐A (BoNTA) preparations (Botox® and Neuronox®) in a murine model and characterized the time course of recovery from the toxin‐induced muscle

## Abstract Collagen is a widely used biomaterial in tissue engineering. Mechanical stimulation of cell‐seeded collagen constructs and its effects on cell orientation, intracellular signaling, and molecular responses have been reported. Our aim was to study the transfer of applied mechanical load t