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skeletal muscle adaptation
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GO_0043501 |
[Any process in which skeletal muscles change their phenotypic profiles in response to altered functional demands and a variety of signals.] |
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regulation of muscle atrophy
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GO_0014735 |
[Any process that modulates the frequency, rate or extent of muscle atrophy.] |
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skeletal muscle atrophy
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GO_0014732 |
[A process, occurring in skeletal muscle, that is characterized by a decrease in protein content, fiber diameter, force production and fatigue resistance in response to different conditions such as starvation, aging and disuse.] |
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plasma membrane selenite transport
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GO_0097080 |
[The directed movement of inorganic selenite (HSeO3-1 at physiological pH) across a plasma membrane.] |
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skeletal muscle regeneration at neuromuscular junction
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GO_0014730 |
[The regrowth of muscle tissue to repair injured or damaged muscle fibers in the postnatal stage at the neuromuscular junction. Regeneration of neuromuscular junctions occurs in an orderly way and relies on communication between nerve and muscle. Skeletal myofibers regenerate after injury and form neuro-muscular junctions with motor axons similar to normal ones. Regenerating myofibers develop within the basal lamina sheaths (satellite cells) of original myofibers.] |
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skeletal muscle tissue regeneration
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GO_0043403 |
[The regrowth of skeletal muscle tissue to repair injured or damaged muscle fibers in the postnatal stage.] |
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vascular associated smooth muscle cell fate commitment
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GO_0097081 |
[The commitment of cells to a vascular smooth muscle cell fate and their capacity to differentiate into vascular smooth muscle cells. A vascular smooth muscle cell is a non-striated, elongated, spindle-shaped cell found lining the blood vessels.] |
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muscle cell fate commitment
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GO_0042693 |
[The process in which the cellular identity of muscle cells is acquired and determined.] |
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spectrin-associated cytoskeleton
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GO_0014731 |
[The part of the cytoskeleton composed of spectrin, protein 4.1 and ankyrin. Spectrin-associated cytoskeleton is associated with the plasma membrane.] |
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cytoskeleton
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GO_0005856 |
[A cellular structure that forms the internal framework of eukaryotic and prokaryotic cells. The cytoskeleton includes intermediate filaments, microfilaments, microtubules, the microtrabecular lattice, and other structures characterized by a polymeric filamentous nature and long-range order within the cell. The various elements of the cytoskeleton not only serve in the maintenance of cellular shape but also have roles in other cellular functions, including cellular movement, cell division, endocytosis, and movement of organelles.] |
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vascular associated smooth muscle cell fate specification
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GO_0097082 |
[The process in which a cell becomes capable of differentiating autonomously into a vascular smooth muscle cell in an environment that is neutral with respect to the developmental pathway. Upon specification, the cell fate can be reversed. A vascular smooth muscle cell is a non-striated, elongated, spindle-shaped cell found lining the blood vessels.] |
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muscle cell fate specification
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GO_0042694 |
[The process in which a cell becomes capable of differentiating autonomously into a muscle cell in an environment that is neutral with respect to the developmental pathway; upon specification, the cell fate can be reversed.] |
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vascular associated smooth muscle cell fate determination
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GO_0097083 |
[The process in which a cell becomes capable of differentiating autonomously into a vascular smooth muscle cell regardless of its environment; upon determination, the cell fate cannot be reversed. A vascular smooth muscle cell is a non-striated, elongated, spindle-shaped cell found lining the blood vessels.] |
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muscle cell fate determination
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GO_0007521 |
[The cell fate determination process in which a cell becomes capable of differentiating autonomously into a muscle cell regardless of its environment; upon determination, the cell fate cannot be reversed.] |
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vascular associated smooth muscle cell development
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GO_0097084 |
[The process aimed at the progression of a vascular smooth muscle cell over time, from initial commitment of the cell to a specific fate, to the fully functional differentiated cell. A vascular smooth muscle cell is a non-striated, elongated, spindle-shaped cell found lining the blood vessels.] |
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muscle cell development
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GO_0055001 |
[The process whose specific outcome is the progression of a muscle cell over time, from its formation to the mature structure. Muscle cell development does not include the steps involved in committing an unspecified cell to the muscle cell fate.] |
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interferon regulatory factor 3-interferon regulatory factor 5 complex
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GO_0097085 |
[An interferon regulatory factor complex that consists of a heterodimer of interferon regulatory factor 3 and interferon regulatory factor 5.] |
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amniotic stem cell differentiation
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GO_0097086 |
[The process whereby a relatively unspecialized cell acquires specialized features of an amniotic stem cell. An amniotic stem cell is a mesenchymal stem cell extracted from amniotic fluid. Amniotic stem cells are able to differentiate into various tissue types such as skin, cartilage, cardiac tissue, nerves, muscle, and bone.] |
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mesenchymal stem cell differentiation
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GO_0072497 |
[The process in which a relatively unspecialized cell acquires specialized features of a mesenchymal stem cell. A mesenchymal stem cell is a cell that retains the ability to divide and proliferate throughout life to provide progenitor cells that can differentiate into specialized mesenchymal cells.] |
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interleukin-17A production
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GO_0097087 |
[The appearance of interleukin-17A due to biosynthesis or secretion following a cellular stimulus, resulting in an increase in its intracellular or extracellular levels.] |
