Muscle satellite cells: Difference between revisions
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Created page with " '''''Satellite cells''''', or '''''myosatellite cells''''' - are mononuclear progenitor cells found in skeletal mucle tissue. As progenitor cells those cells are able to di..." |
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The satellite cells have almost no cytoplasm, very few organelles and a small nucleus. The cells have pleanty nuclear heterochromatin and a high nuclear-to-cytoplamic volume ratio. | The satellite cells have almost no cytoplasm, very few organelles and a small nucleus. The cells have pleanty nuclear heterochromatin and a high nuclear-to-cytoplamic volume ratio. | ||
The satellite cells are attached to syncytium skeletal muscle cells between sarcolemma and basal lamina. | The satellite cells are attached to syncytium skeletal muscle cells between sarcolemma and basal lamina.<ref>Kadi F, Schjerling P, Andersen LL, Charifi N, Madsen JL, Christensen LR, Andersen JL. "The effects of heavy resistance training and detraining on satellite cells in human skeletal muscles." J Physiol 2004; 558:1005-12</ref> | ||
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Revision as of 11:14, 29 November 2013
Satellite cells, or myosatellite cells - are mononuclear progenitor cells found in skeletal mucle tissue. As progenitor cells those cells are able to divide, or transform into syncytium skeletal mucsle cells. This mechanism helps to repair damaged segmental fibre and to grow syncytium cells during long muscle work.
The satellite cells have almost no cytoplasm, very few organelles and a small nucleus. The cells have pleanty nuclear heterochromatin and a high nuclear-to-cytoplamic volume ratio.
The satellite cells are attached to syncytium skeletal muscle cells between sarcolemma and basal lamina.[1]
- ↑ Kadi F, Schjerling P, Andersen LL, Charifi N, Madsen JL, Christensen LR, Andersen JL. "The effects of heavy resistance training and detraining on satellite cells in human skeletal muscles." J Physiol 2004; 558:1005-12
- ↑ Kadi F, Schjerling P, Andersen LL, Charifi N, Madsen JL, Christensen LR, Andersen JL. "The effects of heavy resistance training and detraining on satellite cells in human skeletal muscles." J Physiol 2004; 558:1005-12