Biochemical adaptation of cardiac and skeletal muscle to physical activity

## Abstract Endurance capacity rely on high muscle oxidative capacity but should also involve a tighter coupling between energy production and utilization within the myocyte. The present study examined the responses of muscle oxidative capacity and the regulation of oxidative phosphorylation by pho

## Abstract Marrow‐derived stroma cells (MSCs) can differentiate into multiple lineages including myogenic cells. However, the molecular mechanisms that direct MSCs to each differentiation pathway are poorly understood. Our study was designed to gain insights into the potential regulatory pathways

To understand the role of nonmuscle myosin II in cardiac and skeletal muscle, we used a number of polyclonal antibodies, three detecting nonmuscle myosin heavy chain II-B (NMHC II-B) and two detecting NMHC II-A, to examine the localization of these two proteins in fresh-frozen, acetone-fixed section

As a first step to study the correlation of cardiac and skeletal muscle allograft rejection, we describe a new experimental rat model of simultaneous heterotopic heart and cutaneous maximus muscle flap allotransplant. Brown Norway rats were used as donors and Lewis rats as recipients. No immunosuppr