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lactosylceramide 4-alpha-galactosyltransferase (mouse)
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PR_Q67BJ4 |
[A lactosylceramide 4-alpha-galactosyltransferase that is encoded in the genome of mouse.] |
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upper motor neuron
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CL_0008048 |
[A glutamatergic motor neuron with a soma in the brainstem or cerebral cortex. They do not synapse directly to muscles but rather to lower motor neurons, which do. They are the main controllers of voluntary movement.] |
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glutamatergic neuron
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CL_0000679 |
[A neuron that is capable of some neurotansmission by glutamate secretion.] |
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embryonic head
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UBERON_0008816 |
[A head that is part of a embryo.] |
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formation of animal organ boundary
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GO_0010160 |
[The regionalization process that specifies animal organ primordium boundaries resulting in a restriction of organogenesis to a limited spatial domain and keeping the organ separate from surrounding tissues.] |
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Betz cell
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CL_0008049 |
[A giant pyramidal neuron with a soma in layer Vb of the primary motor cortex that sends its axons down the spinal cord via the corticospinal tract, either synapsing directly with alpha motor neurons, or targeting interneurons in the spinal cord. In humans, Betz cells are the largest known in the central nervous system.] |
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primary motor cortex pyramidal cell
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CL_2000049 |
[Any pyramidal cell that is part of a primary motor cortex.] |
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L5 extratelencephalic projecting glutamatergic cortical neuron
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CL_4023041 |
[A glutamatergic neuron, with a soma found in the deeper portion of L5, that has long-range axonal projections including deep subcortical targets outside of the telencephalon and, in some cases, the spinal cord. While the L5 ET neuron projections are not limited to ET targets, they are clearly differentiated from the neuron subclasses whose projections are constrained to intratelencephalic (IT) targets. L5 ET neurons are generally the largest excitatory cortical neurons, typically having a thick apical dendrite with a prominent dendritic tuft in layer 1 and displaying burst-firing physiological characteristics.] |
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standard pyramidal morphology
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PATO_0070017 |
[A pyramidal family morphology that inheres in neurons which have a standard pyramidal shape with its apical dendrite aligned vertically.] |
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muscle spindle
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UBERON_0003718 |
[The sensory organs in muscle that are involved in the stretch reflex.] |
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helicotrema
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UBERON_0008813 |
[The part of the cochlear labyrinth where the scala tympani and the scala vestibuli meet. It is the main component of the cochlear apex. The hair cells in this area best detect low frequency sounds.] |
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nasopalatine nerve
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UBERON_0008810 |
[A branch of that maxillary nerve that innervates the mucous membrane of the hard palate.] |
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regulation of leucophore differentiation
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GO_0048775 |
[Any process that modulates the frequency, rate or extent of leucophore differentiation.] |
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leucophore differentiation
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GO_0048772 |
[The process in which a relatively unspecialized cell acquires the specialized features of a leucophore cell. Leucophores are pigment cells derived from the neural crest. They contain uric acid or other purine crystals, deposited in stacks called leucosomes. This gives them a white appearance.] |
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nucleobase biosynthetic process
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GO_0046112 |
[The chemical reactions and pathways resulting in the formation of a nucleobase, a nitrogenous base that is a constituent of a nucleic acid.] |
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nucleobase metabolic process
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GO_0009112 |
[The chemical reactions and pathways involving a nucleobase, a nitrogenous base that is a constituent of a nucleic acid, e.g. the purines: adenine, guanine, hypoxanthine, xanthine and the pyrimidines: cytosine, uracil, thymine.] |
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negative regulation of leucophore differentiation
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GO_0048776 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of leucophore differentiation.] |
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ciliary basal body-plasma membrane docking
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GO_0097711 |
[The docking of a cytosolic centriole/basal body to the plasma membrane via the ciliary transition fibers. In some species this may happen via an intermediate step, by first docking to the ciliary vesicle via the ciliary transition fibers. The basal body-ciliary vesicle then relocates to the plasma membrane, followed by the ciliary vesicle fusing with the plasma membrane, effectively attaching the basal body to the plasma membrane.] |
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erythrophore differentiation
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GO_0048773 |
[The process in which a relatively unspecialized cell acquires the specialized features of an erythrophore cell. Erythrophores are pigment cells derived from the neural crest. They contain pteridine and/or carotenoid pigments in structures called pterinosomes or erythrosomes. This gives them an orange to red appearance.] |
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erythrophore
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CL_0000574 |
[A pigment cell derived from the neural crest. Contains pteridine and/or carotenoid pigments in structures called pterinosomes or erythrosomes. This gives an orange to red appearance.] |
