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spinal cord interneuron
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CL_0005000 |
[A CNS interneuron located in the spinal cord.] |
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kidney epithelial cell
|
CL_0002518 |
[An epithelial cell of the kidney.] |
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pigment erythroblast
|
CL_0005004 |
[A non-terminally differentiated cell that originates from the neural crest and differentiates into an erythrophore.] |
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non-terminally differentiated cell
|
CL_0000055 |
[A precursor cell with a limited number of potential fates.] |
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progenitor cell
|
CL_0011026 |
[A precursor cell that has a tendency to differentiate into a specific type of cell. They are descendants of stem cells, only they are more constrained in their differentiation potential or capacity for self-renewal, and are often more limited in both senses.] |
|
migratory neural crest cell
|
CL_0000333 |
[A cell derived from the specialized ectoderm flanking each side of the embryonic neural plate, which after the closure of the neural tube, forms masses of cells that migrate out from the dorsal aspect of the neural tube to spread throughout the body.] |
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leucoblast
|
CL_0005003 |
[A non-terminally differentiated cell that originates from the neural crest and differentiates into a leucophore.] |
|
egg activation
|
GO_0007343 |
[The process in which the egg becomes metabolically active, initiates protein and DNA synthesis and undergoes structural changes to its cortex and/or cytoplasm.] |
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egg cell
|
CL_0000025 |
[A female gamete where meiosis has progressed to metaphase II and is able to participate in fertilization.] |
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ionocyte
|
CL_0005006 |
[Specialized epithelial cells involved in the maintenance of osmotic homeostasis. They are characterized by abundant mitochondria and ion transporters. In amniotes, they are present in the renal system. In freshwater fish, ionocytes in the skin and gills help maintain osmotic homeostasis by absorbing salt from the external environment.] |
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cyanoblast
|
CL_0005005 |
[A non-terminally differentiated cell that originates from the neural crest and differentiates into a cyanophore.] |
|
vagus nerve formation
|
GO_0021646 |
[The process that gives rise to the vagus nerve. This process pertains to the initial formation of a structure from unspecified parts. This nerve is primarily sensory but also has visceromotor components. It originates in the brain stem and controls many autonomic functions of the heart, lungs, stomach, pharynx, larynx, trachea, esophagus and other gastrointestinal tract components. It controls some motor functions such as speech. The sensory branches mediate sensation from the pharynx, larynx, thorax and abdomen; it also innervates taste buds in the epiglottis.] |
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vagus nerve morphogenesis
|
GO_0021644 |
[The process in which the anatomical structure of the vagus nerve is generated and organized. This nerve is primarily sensory but also has visceromotor components. It originates in the brain stem and controls many autonomic functions of the heart, lungs, stomach, pharynx, larynx, trachea, esophagus and other gastrointestinal tract components. It controls some motor functions such as speech. The sensory branches mediate sensation from the pharynx, larynx, thorax and abdomen; it also innervates taste buds in the epiglottis.] |
|
vestibulocochlear nerve maturation
|
GO_0021647 |
[A developmental process, independent of morphogenetic (shape) change, that is required for the vestibulocochlear nerve to attain its fully functional state. This sensory nerve innervates the membranous labyrinth of the inner ear. The vestibular branch innervates the vestibular apparatus that senses head position changes relative to gravity. The auditory branch innervates the cochlear duct, which is connected to the three bony ossicles which transduce sound waves into fluid movement in the cochlea.] |
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vestibulocochlear nerve development
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GO_0021562 |
[The process whose specific outcome is the progression of the vestibulocochlear nerve over time, from its formation to the mature structure. This sensory nerve innervates the membranous labyrinth of the inner ear. The vestibular branch innervates the vestibular apparatus that senses head position changes relative to gravity. The auditory branch innervates the cochlear duct, which is connected to the three bony ossicles which transduce sound waves into fluid movement in the cochlea.] |
|
xanthoblast
|
CL_0005002 |
[A non-terminally differentiated cell that differentiates into a xanthophore.] |
|
vagus nerve development
|
GO_0021564 |
[The process whose specific outcome is the progression of the vagus nerve over time, from its formation to the mature structure. This nerve is primarily sensory but also has visceromotor components. It originates in the brain stem and controls many autonomic functions of the heart, lungs, stomach, pharynx, larynx, trachea, esophagus and other gastrointestinal tract components. It controls some motor functions such as speech. The sensory branches mediate sensation from the pharynx, larynx, thorax and abdomen; it also innervates taste buds in the epiglottis.] |
|
iridoblast
|
CL_0005001 |
[A non-terminally differentiated cell that originates from the neural crest and differentiates into an iridophore.] |
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cellularization
|
GO_0007349 |
[The separation of a multi-nucleate cell or syncytium into individual cells. An example of this is found in Drosophila melanogaster embryo development.] |
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Schizosaccharomycetales
|
NCBITaxon_34346 |
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