|
exocyst
|
GO_0000145 |
[A protein complex peripherally associated with the plasma membrane that determines where vesicles dock and fuse. At least eight complex components are conserved between yeast and mammals.] |
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cellular bud neck contractile ring
|
GO_0000142 |
[A contractile ring, i.e. a cytoskeletal structure composed of actin filaments and myosin, that forms beneath the plasma membrane at the mother-bud neck in mitotic cells that divide by budding in preparation for completing cytokinesis. An example of this structure is found in Saccharomyces cerevisiae.] |
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actomyosin contractile ring
|
GO_0005826 |
[A cytoskeletal structure composed of actin filaments and myosin that forms beneath the plasma membrane of many cells, including animal cells and yeast cells, in a plane perpendicular to the axis of the spindle, i.e. the cell division plane. In animal cells, the contractile ring is located at the cleavage furrow. In budding fungal cells, e.g. mitotic S. cerevisiae cells, the contractile ring forms at the mother-bud neck before mitosis.] |
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mitotic actomyosin contractile ring
|
GO_0110085 |
[A cytoskeletal structure composed of actin filaments, myosin, and myosin-associated proteins that forms beneath the plasma membrane of many cells, including animal cells and yeast cells, in a plane perpendicular to the axis of the mitotic spindle, i.e. the cell division plane. Ring contraction is associated with centripetal growth of the membrane that divides the cytoplasm of the two future daughter cells. In animal cells, the mitotic contractile ring is located inside the plasma membrane at the location of the cleavage furrow. In budding fungal cells, e.g. mitotic S. cerevisiae cells, the mitotic contractile ring forms beneath the plasma membrane at the mother-bud neck before mitosis.] |
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GO_0000143
|
GO_0000143 |
|
|
regulation of striated muscle contraction
|
GO_0006942 |
[Any process that modulates the frequency, rate or extent of striated muscle contraction.] |
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acylglycerone-phosphate reductase (NADP+) activity
|
GO_0000140 |
[Catalysis of the reaction: 1-hexadecanoyl-sn-glycero-3-phosphate + NADP+ = 1-hexadecanoylglycerone 3-phosphate + H+ + NADPH.] |
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negative regulation of tRNA export from nucleus
|
GO_2000239 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of tRNA export from nucleus.] |
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negative regulation of ribonucleoprotein complex localization
|
GO_2000198 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of ribonucleoprotein complex localization.] |
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negative regulation of RNA export from nucleus
|
GO_0046832 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of the directed movement of RNA from the nucleus into the cytoplasm.] |
|
GO_0000141
|
GO_0000141 |
|
|
negative regulation of tRNA processing
|
GO_2000236 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of tRNA processing.] |
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skeletal muscle satellite cell fate specification
|
GO_0014817 |
[The process in which a cell becomes capable of differentiating autonomously into a skeletal muscle satellite 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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positive regulation of tRNA processing
|
GO_2000237 |
[Any process that activates or increases the frequency, rate or extent of tRNA processing.] |
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skeletal muscle satellite cell fate determination
|
GO_0014818 |
[The process in which a cell becomes capable of differentiating autonomously into a skeletal muscle satellite cell regardless of its environment; upon determination, the cell fate cannot be reversed.] |
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obsolete initiation of skeletal muscle satellite cell activation by growth factor signaling, involved in skeletal muscle regeneration
|
GO_0014815 |
[OBSOLETE. Signaling between growth factors and their receptors that results in the activation of satellite cell, where this process is involved in skeletal muscle regeneration. 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.] |
|
skeletal muscle satellite cell differentiation
|
GO_0014816 |
[The process in which a relatively unspecialized cell acquires specialized features of a satellite cell.] |
|
skeletal muscle cell differentiation
|
GO_0035914 |
[The process in which a relatively unspecialized cell acquires specialized features of a skeletal muscle cell, a somatic cell located in skeletal muscle.] |
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skeletal muscle satellite cell commitment
|
GO_0014813 |
[The process in which the developmental fate of a cell becomes restricted such that it will develop into a satellite cell.] |
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axon regeneration at neuromuscular junction
|
GO_0014814 |
[The regrowth of axons following their loss or damage at the neuromuscular junction. Motor axons regenerate after injury and they form neuro-muscular junctions with skeletal myofibers similar to normal ones.] |
