AbstractIn this issue of Cell (Sherwood et al., 2004), a quantitative survey confirms that repair of skeletal muscle is overwhelmingly attributable to the endogenous satellite cell population but that experience of a regenerating muscle environment confers some myogenic qualities onto a tiny population of bone marrow-derived cells
Following their discovery in 1961, it was speculated that satellite cells were dormant myoblasts, he...
SummaryIdentification of human satellite cells that fulfill muscle stem cell criteria is an unmet ne...
Satellite cells are unipotent stem cells involved in muscle regeneration. However, the skeletal musc...
AbstractIn this issue of Cell (Sherwood et al., 2004), a quantitative survey confirms that repair of...
AbstractMuscle satellite cells have long been considered a distinct myogenic lineage responsible for...
SummarySatellite cells are situated beneath the basal lamina that surrounds each myofiber and functi...
AbstractSkeletal muscle contains two types of stem cells: satellite cells, which function as myogeni...
Adult skeletal muscle generates force in a controlled and directed manner through the contraction of...
AbstractAdult bone marrow-derived cells (BMDC) are shown to contribute to muscle tissue in a step-wi...
Both skeletal muscle and bone marrow tissue contain myogenic stem cells. The population residing in ...
Multiple myogenic populations have been highlighted in past publications. In this issue of Cell Stem...
Satellite cells are dormant progenitors located at the periphery of skeletal myofibers that can be t...
Satellite cells are defined by their position beneath the basal lamina of myofibres, and are a sourc...
Following their discovery in 1961, it was speculated that satellite cells were dormant myoblasts, he...
Satellite cells, originating in the embryonic dermamyotome, reside beneath the myofibre of mature ad...
Following their discovery in 1961, it was speculated that satellite cells were dormant myoblasts, he...
SummaryIdentification of human satellite cells that fulfill muscle stem cell criteria is an unmet ne...
Satellite cells are unipotent stem cells involved in muscle regeneration. However, the skeletal musc...
AbstractIn this issue of Cell (Sherwood et al., 2004), a quantitative survey confirms that repair of...
AbstractMuscle satellite cells have long been considered a distinct myogenic lineage responsible for...
SummarySatellite cells are situated beneath the basal lamina that surrounds each myofiber and functi...
AbstractSkeletal muscle contains two types of stem cells: satellite cells, which function as myogeni...
Adult skeletal muscle generates force in a controlled and directed manner through the contraction of...
AbstractAdult bone marrow-derived cells (BMDC) are shown to contribute to muscle tissue in a step-wi...
Both skeletal muscle and bone marrow tissue contain myogenic stem cells. The population residing in ...
Multiple myogenic populations have been highlighted in past publications. In this issue of Cell Stem...
Satellite cells are dormant progenitors located at the periphery of skeletal myofibers that can be t...
Satellite cells are defined by their position beneath the basal lamina of myofibres, and are a sourc...
Following their discovery in 1961, it was speculated that satellite cells were dormant myoblasts, he...
Satellite cells, originating in the embryonic dermamyotome, reside beneath the myofibre of mature ad...
Following their discovery in 1961, it was speculated that satellite cells were dormant myoblasts, he...
SummaryIdentification of human satellite cells that fulfill muscle stem cell criteria is an unmet ne...
Satellite cells are unipotent stem cells involved in muscle regeneration. However, the skeletal musc...
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