Add to ORKGSkeletal muscle-specific stem cells are pivotal for tissue development and regeneration. Muscle plasticity, inherent in these processes, is also essential for daily life activities. Great advances and efforts have been made in understanding the function of the skeletal muscle-dedicated stem cells, called muscle satellite cells, and the specific signaling mechanisms that activate them for recruitment in the repair of the injured muscle. Elucidating these signaling mechanisms may contribute to devising therapies for muscular injury or disease. Here we review the studies that have contributed to our understanding of how calcium signaling regulates skeletal muscle development, homeostasis and regeneration, with a focus on the calcium dynamics a...
Abstract. Skeletal muscle plays an essential role in generating the mechanical force necessary to su...
Skeletal muscle, a tissue endowed with remarkable endogenous regeneration potential, is still under ...
Item does not contain fulltextChanges in intracellular Ca2+-concentration play an important role in ...
Mechanotransduction is a process where cells sense their surroundings and convert the physical force...
Muscle regeneration is essential for proper muscle homeostasis and relies primarily on muscle stem c...
Muscle regeneration is essential for proper muscle homeostasis and relies primarily on muscle stem c...
Calcium (Ca2+) plays a pivotal role in almost all cellular processes and ensures the functionality o...
Calcium (Ca2+) plays a pivotal role in almost all cellular processes and ensures the functionality o...
Tissue regeneration entails replenishing of damaged cells, appropriate cell differentiation and incl...
Homeostatic and regenerative replacement of skeletal muscle fibers requires the activity of a dedica...
Calcium is the most ubiquitous second messenger. Its concentration inside the cell is tightly regula...
Neurons generate particular calcium microdomains in response to different stimuli. Calcium microdoma...
A decrease in skeletal muscle contractile activity or its complete cessation (muscle unloading or di...
Skeletal muscle is a highly specialized tissue composed of non-dividing, multi-nucleated muscle fibr...
Calcium release during skeletal muscle excitation-contraction (EC) coupling occurs at the junctions ...
Abstract. Skeletal muscle plays an essential role in generating the mechanical force necessary to su...
Skeletal muscle, a tissue endowed with remarkable endogenous regeneration potential, is still under ...
Item does not contain fulltextChanges in intracellular Ca2+-concentration play an important role in ...
Mechanotransduction is a process where cells sense their surroundings and convert the physical force...
Muscle regeneration is essential for proper muscle homeostasis and relies primarily on muscle stem c...
Muscle regeneration is essential for proper muscle homeostasis and relies primarily on muscle stem c...
Calcium (Ca2+) plays a pivotal role in almost all cellular processes and ensures the functionality o...
Calcium (Ca2+) plays a pivotal role in almost all cellular processes and ensures the functionality o...
Tissue regeneration entails replenishing of damaged cells, appropriate cell differentiation and incl...
Homeostatic and regenerative replacement of skeletal muscle fibers requires the activity of a dedica...
Calcium is the most ubiquitous second messenger. Its concentration inside the cell is tightly regula...
Neurons generate particular calcium microdomains in response to different stimuli. Calcium microdoma...
A decrease in skeletal muscle contractile activity or its complete cessation (muscle unloading or di...
Skeletal muscle is a highly specialized tissue composed of non-dividing, multi-nucleated muscle fibr...
Calcium release during skeletal muscle excitation-contraction (EC) coupling occurs at the junctions ...
Abstract. Skeletal muscle plays an essential role in generating the mechanical force necessary to su...
Skeletal muscle, a tissue endowed with remarkable endogenous regeneration potential, is still under ...
Item does not contain fulltextChanges in intracellular Ca2+-concentration play an important role in ...