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myoblast fate determination involved in skeletal muscle regeneration
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GO_0014837 |
[The process in which a satellite cell becomes capable of differentiating autonomously into a myoblast regardless of its environment; upon determination, the cell fate cannot be reversed. This occurs as part of skeletal muscle regeneration. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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myoblast fate determination
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GO_0007518 |
[The cell fate determination process in which a cell becomes capable of differentiating autonomously into a myoblast regardless of its environment; upon determination, the cell fate cannot be reversed. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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myoblast fate specification involved in skeletal muscle regeneration
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GO_0014838 |
[The process in which a satellite cell becomes capable of differentiating autonomously into a myoblast in an environment that is neutral with respect to the developmental pathway. Upon specification, the cell fate can be reversed. This occurs as part of skeletal muscle regeneration. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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negative regulation of invasive growth in response to glucose limitation
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GO_2000218 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of invasive growth in response to glucose limitation.] |
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myoblast differentiation involved in skeletal muscle regeneration
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GO_0014835 |
[The process in which a relatively unspecialized satellite cell acquires specialized features of a myoblast. This occurs as part of skeletal muscle regeneration. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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myoblast differentiation
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GO_0045445 |
[The process in which a relatively unspecialized cell acquires specialized features of a myoblast. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into striated muscle fibers.] |
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positive regulation of invasive growth in response to glucose limitation
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GO_2000219 |
[Any process that activates or increases the frequency, rate or extent of invasive growth in response to glucose limitation.] |
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myoblast fate commitment involved in skeletal muscle regeneration
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GO_0014836 |
[The process in which the developmental fate of a satellite cell becomes restricted such that it will develop into a myoblast. This occurs as part of skeletal muscle regeneration. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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myoblast proliferation involved in skeletal muscle regeneration
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GO_0014844 |
[The multiplication or reproduction of myoblasts, resulting in the expansion of the cell population. This occurs as part of skeletal muscle regeneration. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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myoblast proliferation
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GO_0051450 |
[The multiplication or reproduction of myoblasts, resulting in the expansion of a myoblast cell population. A myoblast is a mononucleate cell type that, by fusion with other myoblasts, gives rise to the myotubes that eventually develop into skeletal muscle fibers.] |
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stomach body smooth muscle contraction
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GO_0014845 |
[A process in which force is generated within smooth muscle tissue, resulting in a change in muscle geometry. This process occurs in the body of stomach. Force generation involves a chemo-mechanical energy conversion step that is carried out by the actin/myosin complex activity, which generates force through ATP hydrolysis. The body of stomach is the part of the stomach that lies between the fundus above and the pyloric antrum below; its boundaries are poorly defined.] |
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regulation of skeletal muscle satellite cell proliferation
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GO_0014842 |
[Any process that modulates the frequency, rate or extent of skeletal muscle satellite cell proliferation.] |
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regulation of skeletal muscle cell proliferation
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GO_0014857 |
[Any process that modulates the frequency, rate or extent of skeletal muscle cell proliferation.] |
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growth factor dependent regulation of skeletal muscle satellite cell proliferation
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GO_0014843 |
[Any process that modulates the frequency, rate or extent of satellite cell proliferation; dependent on specific growth factor activity such as fibroblast growth factors and transforming growth factor beta.] |
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apoptotic signaling pathway
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GO_0097190 |
[The series of molecular signals which triggers the apoptotic death of a cell. The pathway starts with reception of a signal, and ends when the execution phase of apoptosis is triggered.] |
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skeletal muscle satellite cell proliferation
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GO_0014841 |
[The multiplication or reproduction of satellite cells, resulting in the expansion of the cell population. Satellite cells are quiescent cells that are located between the basal lamina and the plasmalemma of the muscle fiber, which are the main contributors to postnatal muscle growth. In adult muscle, satellite cells become activated to divide and differentiate in response to muscle damage.] |
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skeletal muscle cell proliferation
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GO_0014856 |
[The multiplication or reproduction of skeletal muscle cells, resulting in the expansion of a cell population.] |
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extrinsic apoptotic signaling pathway in absence of ligand
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GO_0097192 |
[The series of molecular signals in which a signal is conveyed from the cell surface to trigger the apoptotic death of a cell. The pathway starts with withdrawal of a ligand from a cell surface receptor, and ends when the execution phase of apoptosis is triggered.] |
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signal transduction in absence of ligand
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GO_0038034 |
[The series of molecular signals initiated by the absence of a ligand or the withdrawal of a ligand from a receptor.] |
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execution phase of apoptosis
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GO_0097194 |
[A stage of the apoptotic process that starts with the controlled breakdown of the cell through the action of effector caspases or other effector molecules (e.g. cathepsins, calpains etc.). Key steps of the execution phase are rounding-up of the cell, retraction of pseudopodes, reduction of cellular volume (pyknosis), chromatin condensation, nuclear fragmentation (karyorrhexis), plasma membrane blebbing and fragmentation of the cell into apoptotic bodies. When the execution phase is completed, the cell has died.] |
