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midbrain neural plate
|
UBERON_0009611 |
[A neural plate that develops_from a presumptive midbrain.] |
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pre-chordal neural plate
|
UBERON_0003056 |
[The portion of neural plate anterior to the mid-hindbrain junction.] |
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forebrain neural plate
|
UBERON_0009610 |
[A neural plate that develops_from a future forebrain.] |
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line of Schwalbe
|
UBERON_0011918 |
[The thickened peripheral margin of the vitreous membrane of the cornea.] |
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eye trabecular meshwork
|
UBERON_0005969 |
[A pore-like structure surrounding the entire circumference of the anterior chamber of the eye through which aqueous humor circulates[MP].] |
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yolk sac blood island
|
UBERON_0011919 |
[Masses of developing blood cells attached to endothelium in the yolk sac.] |
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blood island
|
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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mesenchyme of yolk sac
|
UBERON_0003316 |
[The portion of the yolk sac that is derived from mesoderm and consists of mesenchyme.] |
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trunk paraxial mesoderm
|
UBERON_0009618 |
|
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paraxial mesoderm
|
UBERON_0003077 |
[The paraxial mesoderm is the mesoderm located bilaterally adjacent to the notochord and neural tube[GO].] |
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head paraxial mesoderm
|
UBERON_0009617 |
[Bilateral mesenchymal mesoderm parallel and immediately adjacent to the neural tube/notochord; it generates a subset of extra-ocular, and other head, muscles.] |
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future brain
|
UBERON_0006238 |
[The embryonic precursor of the brain.] |
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anchoring junction
|
GO_0070161 |
[A cell junction that mechanically attaches a cell (and its cytoskeleton) to neighboring cells or to the extracellular matrix.] |
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midbrain hindbrain boundary neural plate
|
UBERON_0009615 |
|
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presumptive midbrain hindbrain boundary
|
UBERON_0007281 |
[Embryonic structure that gives rise to the midbrain hindbrain boundary.] |
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hindbrain neural plate
|
UBERON_0009614 |
[A neural plate that develops_from a presumptive hindbrain.] |
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chordal neural plate
|
UBERON_0003057 |
[The portion of neural plate posterior to the mid-hindbrain junction.] |
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somatic recombination of immunoglobulin genes involved in immune response
|
GO_0002204 |
[The process in which immunoglobulin genes are formed through recombination of the germline genetic elements, also known as immunoglobulin gene segments, within a single locus following the induction of and contributing to an immune response.] |
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B cell activation involved in immune response
|
GO_0002312 |
[The change in morphology and behavior of a mature or immature B cell during an immune response, resulting from exposure to a mitogen, cytokine, chemokine, cellular ligand, or an antigen for which it is specific.] |
|
regulation of immunoglobulin production
|
GO_0002637 |
[Any process that modulates the frequency, rate, or extent of immunoglobulin production.] |
