|
lamellocyte
|
CL_0000396 |
|
|
slow muscle cell migration
|
GO_1904969 |
[The orderly movement of a slow muscle cell from one site to another.] |
|
myotube cell migration
|
GO_0110122 |
[The orderly movement of a myotube cell from one site to another, often during the development of a multicellular organism. Myotubes are multinucleated cells that are formed when proliferating myoblasts exit the cell cycle, differentiate, and fuse.] |
|
slow muscle cell
|
CL_0000189 |
[A muscle cell that develops tension more slowly than a fast-twitch fiber.] |
|
negative regulation of sodium ion transmembrane transport
|
GO_1902306 |
[Any process that stops, prevents or reduces the frequency, rate or extent of sodium ion transmembrane transport.] |
|
tibia pre-cartilage condensation
|
UBERON_0010850 |
[A pre-cartilage condensation that has the potential to develop into a tibia.] |
|
positive regulation of sodium ion transmembrane transport
|
GO_1902307 |
[Any process that activates or increases the frequency, rate or extent of sodium ion transmembrane transport.] |
|
inorganic ion
|
CHEBI_36914 |
|
|
lymph gland crystal cell differentiation
|
GO_0035170 |
[The process in which a relatively unspecialized larval lymph gland-derived hemocyte precursor cell acquires the specialized features of a crystal cell. Crystal cells are a class of cells that contain crystalline inclusions and are involved in the melanization of pathogenic material in the hemolymph.] |
|
lymph gland crystal cell
|
CL_0000716 |
|
|
iliocostalis cervicis muscle
|
UBERON_0008546 |
[The iliocostalis cervicis (cervicalis ascendens) arises from the angles of the third, fourth, fifth, and sixth ribs, and is inserted into the posterior tubercles of the transverse processes of the fourth, fifth, and sixth cervical vertebrae..] |
|
mesenchyme derived from trunk neural crest
|
UBERON_0007214 |
[Mesenchyme that develops_from a trunk neural crest.] |
|
dendritic tree
|
GO_0097447 |
[The entire complement of dendrites for a neuron, consisting of each primary dendrite and all its branches.] |
|
astrocyte projection
|
GO_0097449 |
[A prolongation or process extending from the soma of an astrocyte and wrapping around neurons.] |
|
renal artery morphogenesis
|
GO_0061441 |
[The process in which the anatomical structure of a renal artery is generated and organized. Renal arteries supply the kidneys with blood.] |
|
renal artery
|
UBERON_0001184 |
[One of two laterally paired arteries that supplies the kidneys. These are large arteries that branch from the dorsal aorta in primitive vertebrates.] |
|
quality of interaction of a substance with electromagnetic radiation
|
PATO_0070060 |
[A quality of a substance on which or through which electromagnetic radiation impinges or traverses with respect to radiation. This substance quality changes the quality of the incident radiation with respect to any of: intensity, direction, scatter and wavelength.] |
|
double bouquet morphology
|
PATO_0070061 |
[A cell morphology that inheres in neurons with bitufted dendritic morphology but with the special feature of a tight fascicular axonal cylinder that resembles a 'horse tail'.] |
|
bitufted dendrite cell morphology
|
PATO_0070027 |
[A cell morphology that inheres in neurons with dendrites that are bidirectional, emerging from opposite ends of the soma, with the two arbors extending in radial or tangential directions.] |
|
enteric nervous system development
|
GO_0048484 |
[The process whose specific outcome is the progression of the enteric nervous system over time, from its formation to the mature structure. The enteric nervous system is composed of two ganglionated neural plexuses in the gut wall which form one of the three major divisions of the autonomic nervous system. The enteric nervous system innervates the gastrointestinal tract, the pancreas, and the gallbladder. It contains sensory neurons, interneurons, and motor neurons. Thus the circuitry can autonomously sense the tension and the chemical environment in the gut and regulate blood vessel tone, motility, secretions, and fluid transport. The system is itself governed by the central nervous system and receives both parasympathetic and sympathetic innervation.] |
