Electrical properties of chick skeletal muscle fibers developing in cell culture

## Abstract During embryonic and early postnatal development, the chick leg muscle cells undergo a series of changes in their electrical responses in the following sequence: passive response, plateau response, plateau plus spike response and spike response. This suggests that the electrogenetic mec

## Abstract The embryonic chick skeletal muscle cells differentiated in cell culture from trypsin‐dissociated myoblasts produce a spike response which is tetrodotoxin‐sensitive. It has been found that many cells also produce a plateau response which is resistant to tetrodotoxin. The plateau respons

## Abstract The development of spike potential mechanisms during cell differentiation was studied in chick myotubes formed in vitro from trypsin‐dissociated myoblasts. The spike potential and its rate of rise were measured in myotubes from 4–14 day old cultures. A depolarizing current pulse was del

Electrogenesis of embryonic chick skeletal muscle cells differentiated in monolayer cultures was investigated. Muscle fibers in uitro generate spike potentials similar to those of fibers in wino. However, other responses, plateaux resembling those i n heart muscle, are also elicited. These results s

Changes in membrane fluidity during myogenesis have been studied by fluorescence microscopy of individual cells growing in monolayer cultures of embryonic chick skeletal muscle cells. Membrane fluidity was determined by the techniques of fluorescence photobleaching recovery (FPR), with the use of a