In this study, we describe a method to isolate fibers of different lengths and types from six hindlimb muscles from mice. Also, we tested the suitability of the fibers for physiological experiments dealing with the study of the excitation-contraction coupling mechanism. For years, obtaining long muscle fibers was challenge, limiting the scope of many studies in the field.
Now we show that it is possible to obtain lean fibers with mouse flexors, extensors, and evertors with lengths of up to six millimeters. As an example, obtaining fibers from six different muscles has allowed us to show that the calcium transient kinetics known as morphology type II, can be generalized to type IIB and IIX regardless of the location or function of their muscle source. We believe that the model of enzymatically isolated fibers is suitable for a variety of experimental approaches with different types of technologies that allow us to answer mechanistic questions within the range of biochemistry, physiology, biophysics, cell biology, and molecular biology.
