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negative regulation of biomineral tissue development
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GO_0070168 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of biomineral tissue development, the formation of hard tissues that consist mainly of inorganic compounds.] |
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positive regulation of tooth mineralization
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GO_0070172 |
[Any process that activates or increases the frequency, rate or extent of tooth mineralization, the deposition of calcium salts in tooth structures.] |
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positive regulation of biomineral tissue development
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GO_0070169 |
[Any process that activates or increases the frequency, rate or extent of biomineral tissue development, the formation of hard tissues that consist mainly of inorganic compounds.] |
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piriform cortex layer 1b
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UBERON_0023901 |
[Deeper part of the plexiform (layer 1) of piriform cortex characterized by projection of association fibers from other parts of the piriform cortex and other olfactory areas.] |
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piriform cortex layer 1a
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UBERON_0023900 |
[Superficial part of plexiform layer (layer 1) of piriform cortex that receives afferents from the olfactory bulb by way of the lateral olfactory tract.] |
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gastrocnemius externus
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UBERON_0011910 |
[Missing definition for term UBERON:0011910. Please replace it using linked reference.] |
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posteromedial visual area
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UBERON_0035900 |
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UBERON_0011914
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UBERON_0011914 |
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primary visual area, layer 4
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UBERON_0035904 |
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cerebellar glomerulus
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UBERON_0011915 |
[An intertwined cluster of nerve fibers surrounded by glia where mossy fibers from the pontine nuclei in the white matter synapse with granule cell axons, Golgi cell axons and unipolar brush interneuron axons.] |
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neural glomerulus
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UBERON_0001047 |
[A large synaptic bouton found in areas like olfactory bulb, cerebellar cortex and thalamus, that contacts many post-synaptic targets.] |
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primary visual area, layer 5
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UBERON_0035906 |
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primary visual area, layer 2/3
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UBERON_0035907 |
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line of Schwalbe
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UBERON_0011918 |
[The thickened peripheral margin of the vitreous membrane of the cornea.] |
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anterolateral visual area, layer 5
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UBERON_0035908 |
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yolk sac blood island
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UBERON_0011919 |
[Masses of developing blood cells attached to endothelium in the yolk sac.] |
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blood island
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UBERON_0003061 |
[Blood islands are structures in the developing embryo which lead to many different parts of the circulatory system. They primarily derive from plexuses formed from angioblasts. Within them, vacuoles appear through liquefaction of the central part of the syncytium into plasma. The lumen of the blood vessels thus formed is probably intracellular. The flattened cells at the periphery form the endothelium. The nucleated red blood corpuscles develop either from small masses of the original angioblast left attached to the inner wall of the lumen or directly from the flat endothelial cells. In either case the syncytial mass thus formed projects from and is attached to the wall of the vessel. Such a mass is known as a blood island and hemoglobin gradually accumulates within it. Later the cells on the surface round up, giving the mass a mulberry-like appearance. Then the red blood cells break loose and are carried away in the plasma. Such free blood cells continue to divide. Blood islands have been seen in the area vasculosa in the omphalomesenteric vein and arteries, and in the dorsal aorta[WP, unvetted].] |
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posteromedial visual area, layer 6a
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UBERON_0035909 |
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UBERON_0011916
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UBERON_0011916 |
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thalamic glomerulus
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UBERON_0011917 |
[Synaptic structure found in thalamic relay nuclei consising of a complex of afferent terminals, relay cell dendrites, interneuron dendrites and other processes. These complexes are surrounded by astrocytic processes.] |
