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sublaminar layer S5
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UBERON_0008926 |
[A retinal neural layer that is immediately adjacent to the retinal ganglion cell layer and comprises 20 percent of the ganglion plexiform layer of retina.] |
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sublaminar layers S4 or S5
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UBERON_0008929 |
[One of sublaminar layers S4 or S5.] |
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sublaminar layer S4
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UBERON_0008925 |
[A retinal neural layer that is immediately adjacent to the S3 and S5 layer and comprises 20 percent of the inner plexiform layer of retina.] |
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sublaminar layer S3
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UBERON_0008924 |
[A retinal neural layer that is immediately adjacent to the S2 and S4 layers and comprises 20 percent of the inner plexiform layer of retina.] |
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sublaminar layers S2 or S3
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UBERON_0008928 |
[One of sublaminar layers S2 or S3.] |
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sublaminar layer S2
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UBERON_0008923 |
[A retinal neural layer that is immediately adjacent to the S1 and S3 layers and comprises 20 percent of the inner plexiform layer of retina.] |
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sublaminar layers S1 or S2
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UBERON_0008927 |
[One of sublaminar layers S1 or S2.] |
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sublaminar layer S1
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UBERON_0008922 |
[A retinal neural layer that is immediately adjacent to the inner nuclear layer and comprises 20 percent of the inner plexiform layer of retina.] |
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obsolete mesenchyme from splanchnopleure
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UBERON_0008920 |
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obsolete mesenchyme from somatopleure
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UBERON_0008919 |
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ampulla of Lorenzini
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UBERON_0008918 |
[The ampullae of Lorenzini are special sensing organs called electroreceptors, forming a network of jelly-filled pores. Each ampulla consists of a canal opening to the surface by a pore in the skin and ending blindly in a cluster of small pockets full of special jelly. The ampullae are mostly clustered into groups inside the body, each cluster having ampullae connecting with different parts of the skin, but preserving a left-right symmetry. The canal lengths vary from animal to animal, but the distribution of the pores is generally specific to each species. The ampullae pores are plainly visible as dark spots in the skin. They provide fish with a sixth sense capable of detecting electromagnetic fields as well as temperature gradients[WP].] |
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lateral line sense organ
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UBERON_0035555 |
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ampullary organ
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UBERON_0008917 |
[Organ that consists of receptor cells located within an epidermal invagination and functions as an electroreceptor.] |
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visceral hump
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UBERON_0008937 |
[Mollusks have three distinct divisions of their body. The head contains the sensory equipment (eyes, antennae, etc) and the primitive brain. The visceral hump, which is the main body, contains most of the organs, including a complete digestive and excretory tract as well as the reproductive organs. The visceral hump also includes the two external flaps of tissue, which are known as the mantle.] |
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gastropod genital pore
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UBERON_0008936 |
[A small opening on the side of the head in some gastropods through which the penis is protruded.] |
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gastropod albumen gland
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UBERON_0008935 |
[The posterior oviduct opens into the large white albumen gland which adds a layer of albumen to the zygote before it reaches the egg capsule gland.] |
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secondary somatosensory cortex
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UBERON_0008934 |
[The area of the upper bank of the lateral sulcus that is involved in somatic sensation.] |
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somatosensory cortex
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UBERON_0008930 |
[Area of the parietal lobe concerned with receiving general sensations. It lies posterior to the central sulcus.] |
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primary somatosensory cortex
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UBERON_0008933 |
[(Chapin & Lin, 1984, rat): the region considered as the SI cortex is not a cytoarchitecturally homogeneous structure but consists instead of a patchwork array of areas containing dense aggregations of layer IV granule cells, surrounded by granule-cell-sparse regions. As was shown by Welker (b71,b76), and in our own mapping studies (see Fig. 3), this discontinuous pattern of granular, or koniocortical, zones contains within itself a map of the ratbs cutaneous periphery. There are clear subtypes within this cytoarchitectural subregion, notably including the bgranular aggregateb type of cytoarchitecture characteristic of the paw, limb, and mystacial vibrissae areas, and the bbarrel-fieldb type (originally described by Woolsey and Van der Loos, b70) seen in the nose and perioral regions. In the mouse, but not the rat, such barrels also cover the whole whisker representation (Welker and Woolsey, b74).] |
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positive regulation of myeloid dendritic cell cytokine production
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GO_0002735 |
[Any process that activates or increases the frequency, rate, or extent of myeloid dendritic cell cytokine production.] |
