|
leaf senescence
|
GO_0010150 |
[The last stage of leaf development during which programmed degradation of macromolecules and nutrient recycling take place.] |
|
plant organ senescence
|
GO_0090693 |
[A plant organ developmental process during which a plant dismantles cellular components to reclaim the cellular building blocks and nutrients that have been deposited in the plant organs during growth.] |
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GO_0048748
|
GO_0048748 |
|
|
chloroplast elongation
|
GO_0010151 |
[Expansion of the chloroplast that usually precedes division.] |
|
compound eye development
|
GO_0048749 |
[The process whose specific outcome is the progression of the compound eye over time, from its formation to the mature structure. The compound eye is an organ of sight that contains multiple repeating units, often arranged hexagonally. Each unit has its own lens and photoreceptor cell(s) and can generate either a single pixelated image or multiple images, per eye.] |
|
eye development
|
GO_0001654 |
[The process whose specific outcome is the progression of the eye over time, from its formation to the mature structure. The eye is the organ of sight.] |
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regulation of skeletal muscle fiber development
|
GO_0048742 |
[Any process that modulates the frequency, rate or extent of skeletal muscle fiber development. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast.] |
|
GO_1990598
|
GO_1990598 |
|
|
positive regulation of skeletal muscle fiber development
|
GO_0048743 |
[Any process that activates, maintains or increases the rate of skeletal muscle fiber development. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast.] |
|
positive regulation of skeletal muscle tissue development
|
GO_0048643 |
[Any process that activates, maintains or increases the rate of skeletal muscle tissue development.] |
|
3' overhang single-stranded DNA endodeoxyribonuclease activity
|
GO_1990599 |
[Catalysis of the hydrolysis of ester linkages within 3' overhang single-stranded deoxyribonucleic acid by creating internal breaks.] |
|
obsolete striated muscle fiber development
|
GO_0048740 |
[OBSOLETE. The process whose specific outcome is the amplification and progression of myoblasts (muscle precursor cells) into terminally differentiated multinucleated muscle fibers.] |
|
vascular endothelial cell response to laminar fluid shear stress
|
GO_0097700 |
[Any response to laminar fluid shear stress in a vascular endothelial cell.] |
|
vascular endothelial cell response to fluid shear stress
|
GO_0097699 |
[Any response to fluid shear stress in a vascular endothelial cell.] |
|
cellular response to laminar fluid shear stress
|
GO_0071499 |
[Any process that results in a change in state or activity of a cell (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a laminar fluid shear stress stimulus. Laminar fluid flow is the force acting on an object in a system where the fluid is moving across a solid surface in parallel layers.] |
|
obsolete histone H3-K4 deacetylation
|
GO_1990596 |
[OBSOLETE. The modification of histone H3 by the removal of an acetyl group from lysine at position 4 of the histone.] |
|
skeletal muscle fiber development
|
GO_0048741 |
[The process whose specific outcome is the progression of the skeletal muscle fiber over time, from its formation to the mature structure. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast.] |
|
myotube cell development
|
GO_0014904 |
[The process aimed at the progression of a myotube cell over time, from initial commitment of the cell to a specific fate, to the fully functional differentiated cell. Myotubes are multinucleated cells that are formed when proliferating myoblasts exit the cell cycle, differentiate and fuse.] |
|
response to pulsatile fluid shear stress
|
GO_0097701 |
[Any response to fluid shear stress where the fluid is flowing across a solid surface with periodic variations. For example, the endothelium in straight parts of the artery tree is subjected to pulsatile shear stress with a significant forward direction, which is believed to be an important physiological stimulus enhancing vessel compliance and conferring anti-thrombotic, anti-adhesive, and anti-inflammatory effects.] |
|
AIP1-IRE1 complex
|
GO_1990597 |
[A protein complex consisting of IRE1 (inositol-requiring enzyme-1) bound to AIP1 (ASK1-interacting protein 1/DAB2-interacting protein).] |
