An optimized procedure for isolation of rodent and human skeletal muscle sarcoplasmic and myofibrillar proteins

Authors :: Roberts, Michael D.
Young, Kaelin C.
Fox, Carlton D.
Vann, Christopher G.
Roberson, Paul A.
Osburn, Shelby C.
Moore, Johnathon H.
Mumford, Petey W.
Romero, Matthew A.
Beck, Darren T.
Haun, Cody T.
Badisa, Veera L.D.
Mwashote, Benjamin M.
Ideanusi, Victor
Kavazis, Andreas N.
Roberts, Michael D.
Young, Kaelin C.
Fox, Carlton D.
Vann, Christopher G.
Roberson, Paul A.
Osburn, Shelby C.
Moore, Johnathon H.
Mumford, Petey W.
Romero, Matthew A.
Beck, Darren T.
Haun, Cody T.
Badisa, Veera L.D.
Mwashote, Benjamin M.
Ideanusi, Victor
Kavazis, Andreas N.
Source :: Journal of Biological Methods; Vol. 7 No. 1 (2020); e127; 2326-9901
Publication Year :: 2020
Abstract: Several published protocols exist for isolating contractile or myofibrillar (MF) proteins from skeletal muscle, however, achieving complete resuspension of the myofibril pellet can be technically challenging. We performed several previously published MF isolation methods with the intent of determining which method was most suitable for MF protein isolation and solubilization. Here, we provide an optimized protocol to isolate sarcoplasmic and solubilized MF protein fractions from mammalian skeletal muscle suitable for several downstream assays.

Database :: OAIster
Journal :: Journal of Biological Methods; Vol. 7 No. 1 (2020); e127; 2326-9901
Notes :: text/html, application/pdf, English
Publication Type :: Electronic Resource
Accession number :: edsoai.on1246213713
Document Type :: Electronic Resource

Tools