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lateral reticular nucleus
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UBERON_0002154 |
[A nucleus of the lateral medullary nuclear complex.] |
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separation into different composition objective
|
OBI_0000681 |
[A material separation objective aiming to separate a material entity that has parts of different types, and end with at least one output that is a material with parts of fewer types (modulo impurities).] |
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stem cell line cell
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CLO_0037224 |
[A cell line cell that is cultured in vitro and possesses two capabilities: (1) it can self-renew, which means that it can divide indefinitely while remaining in an undifferentiated state; and (2) it is pluripotent or multipotent, which means that it can differentiate to form a specialized cell type.] |
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cell line cell
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CLO_0000001 |
[A cultured cell that is part of a cell line - a stable and homogeneous population of cells with a common biological origin and propagation history in culture
, A cultured cell that is part of a cell line - a stable and homogeneous population of cells with a common biological origin and propagation history in culture] |
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superior olivary nucleus formation
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GO_0021720 |
[The process that gives rise to the superior olivary nucleus. This process pertains to the initial formation of a structure from unspecified parts. In mice, the superior olivary nucleus is a small cylindrical mass on the dorsal surface of the lateral part of the trapezoid body of the pons, and it is situated immediately above the inferior olivary nucleus. It receives projections from the cochlear nucleus and thus is involved in the perception of sound.] |
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pons formation
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GO_0021584 |
[The process that gives rise to the pons. This process pertains to the initial formation of a structure from unspecified parts. The pons lies above the medulla and next to the cerebellum. The pons conveys information about movement from the cerebral hemisphere to the cerebellum.] |
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arytenoid swellings
|
UBERON_0010215 |
[Paired primordial elevations, on either side of the embryonic larynx, within which the arytenoid cartilages are formed.] |
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laryngeal associated mesenchyme
|
UBERON_0010221 |
|
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cricoid pre-cartilage condensation
|
UBERON_0010214 |
|
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salivary gland development
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GO_0007431 |
[The process whose specific outcome is the progression of the salivary gland over time, from its formation to the mature structure. Salivary glands include any of the saliva-secreting exocrine glands of the oral cavity.] |
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negative regulation of spermatid nuclear differentiation
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GO_0045701 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of spermatid nuclear differentiation.] |
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negative regulation of cell differentiation
|
GO_0045596 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of cell differentiation.] |
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regulation of spermatid nuclear differentiation
|
GO_0045700 |
[Any process that modulates the frequency, rate or extent of spermatid nuclear differentiation.] |
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spermatid nucleus differentiation
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GO_0007289 |
[The specialization of the spermatid nucleus during the development of a spermatid into a mature male gamete competent for fertilization.] |
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salivary gland morphogenesis
|
GO_0007435 |
[The process in which the anatomical structures of the salivary gland are generated and organized.] |
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gland morphogenesis
|
GO_0022612 |
[The process in which the anatomical structures of a gland are generated and organized.] |
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positive regulation of spermatid nuclear differentiation
|
GO_0045702 |
[Any process that activates or increases the frequency, rate or extent of spermatid nuclear differentiation.] |
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positive regulation of cell differentiation
|
GO_0045597 |
[Any process that activates or increases the frequency, rate or extent of cell differentiation.] |
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dentate nucleus development
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GO_0021735 |
[The process whose specific outcome is the progression of the dentate nucleus over time, from its formation to the mature structure.] |
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cerebellum development
|
GO_0021549 |
[The process whose specific outcome is the progression of the cerebellum over time, from its formation to the mature structure. The cerebellum is the portion of the brain in the back of the head between the cerebrum and the pons. In mice, the cerebellum controls balance for walking and standing, modulates the force and range of movement and is involved in the learning of motor skills.] |
