|
membrane depolarization during cardiac muscle cell action potential
|
GO_0086012 |
[The process in which cardiac muscle cell membrane potential changes in the depolarizing direction from the negative resting potential towards the positive membrane potential that will be the peak of the action potential.] |
|
detection of mechanical stimulus involved in magnetoreception
|
GO_0050971 |
[The series of events involved in magnetoception in which a mechanical stimulus is received and converted into a molecular signal. The stimulus is in the form of torque on particles such as magnetite which respond to a magnetic field.] |
|
membrane depolarization during ventricular cardiac muscle cell action potential
|
GO_0098913 |
[The process in which ventricular cardiac muscle cell membrane potential changes in the depolarizing direction from the negative resting potential towards the positive membrane potential that will be the peak of the action potential.] |
|
detection of mechanical stimulus involved in echolocation
|
GO_0050972 |
[The series of events involved in echolocation in which a mechanical stimulus is received and converted into a molecular signal. The stimulus is in the form of a reflected sound wave (an echo), which the organism uses to determine the distance to the object that reflected the sound wave.] |
|
membrane repolarization during atrial cardiac muscle cell action potential
|
GO_0098914 |
[The process in which ions are transported across a membrane such that the atrial cardiomyocyte membrane potential changes in the direction from the positive membrane potential at the peak of the action potential towards the negative resting potential.] |
|
atrial cardiac muscle cell membrane repolarization
|
GO_0099624 |
[The process in which ions are transported across the plasma membrane of an atrial cardiac muscle cell such that the membrane potential changes in the repolarizing direction, toward the steady state potential. For example, the repolarization during an action potential is from a positive membrane potential towards a negative resting potential.] |
|
membrane repolarization
|
GO_0086009 |
[The process in which ions are transported across a membrane such that the membrane potential changes in the repolarizing direction, toward the steady state potential. For example, the repolarization during an action potential is from a positive membrane potential towards a negative resting potential.] |
|
membrane repolarization during cardiac muscle cell action potential
|
GO_0086013 |
[The process in which ions are transported across a membrane such that the cardiac muscle cell plasma membrane potential changes in the direction from the positive membrane potential at the peak of the action potential towards the negative resting potential.] |
|
detection of mechanical stimulus involved in equilibrioception
|
GO_0050973 |
[The series of events involved in equilibrioception in which a mechanical stimulus is received and converted into a molecular signal. During equilibrioception, mechanical stimuli may be in the form of input from pressure receptors or from the labyrinth system of the inner ears.] |
|
membrane repolarization during ventricular cardiac muscle cell action potential
|
GO_0098915 |
[The process in which ions are transported across a membrane such that the ventricular cardiomyocyte membrane potential changes in the direction from the positive membrane potential at the peak of the action potential towards the negative resting potential.] |
|
ventricular cardiac muscle cell membrane repolarization
|
GO_0099625 |
[The process in which ions are transported across the plasma membrane of a ventricular cardiac muscle cell such that the membrane potential changes in the repolarizing direction, toward the steady state potential. For example, the repolarization during an action potential is from a positive membrane potential towards a negative resting potential.] |
|
imaginal disc-derived wing hair elongation
|
GO_0035319 |
[Growth of a prehair in the approximately 10 hour period following its emergence from an epidermal cell in an imaginal disc-derived wing. Prehair elongation is guided and/or driven by the polymerization of actin filaments and the orderly crosslinking of filaments into bundles.] |
|
anterograde trans-synaptic signaling
|
GO_0098916 |
[Cell-cell signaling from pre to post-synapse, across the synaptic cleft.] |
|
trans-synaptic signaling
|
GO_0099537 |
[Cell-cell signaling in either direction across the synaptic cleft.] |
|
retrograde trans-synaptic signaling
|
GO_0098917 |
[Cell-cell signaling from post to pre-synapse, across the synaptic cleft.] |
|
imaginal disc-derived wing hair organization
|
GO_0035317 |
[A process that is carried out at the cellular level that results in the assembly, arrangement of constituent parts, or disassembly of an imaginal disc-derived wing hair. A wing hair is an actin-rich, polarized, non-sensory apical projection that protrudes from each of the approximately 30,000 wing epithelial cells. An example of this is found in Drosophila melanogaster.] |
|
structural constituent of synapse
|
GO_0098918 |
[The action of a molecule that contributes to the structural integrity of a synapse.] |
|
imaginal disc-derived wing hair outgrowth
|
GO_0035318 |
[Extrusion of a cellular projection from the apical membrane of an epithelial cell in an imaginal disc-derived wing. Outgrowth initiates approximately 35 hours after puparium formation from the distal side of the cell, and at this stage the cellular extension is termed a prehair.] |
|
structural constituent of postsynaptic density
|
GO_0098919 |
[The action of a molecule that contributes to the structural integrity of a postsynaptic density.] |
|
structural constituent of postsynaptic specialization
|
GO_0098879 |
[The action of a molecule that contributes to the structural integrity of a postsynaptic specialization.] |