|
acellular membrane
|
UBERON_0005764 |
[An acellular anatomical structure that is the bounding layer of a anatomical structure.] |
|
cavitated compound organ
|
UBERON_0000489 |
[Compound organ that contains one or more macroscopic anatomical spaces.] |
|
compound organ
|
UBERON_0003103 |
[Anatomical structure that has as its parts two or more multi-tissue structures of at least two different types and which through specific morphogenetic processes forms a single distinct structural unit demarcated by bona fide boundaries from other distinct anatomical structures of different types.] |
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simple squamous epithelium
|
UBERON_0000487 |
[Unilaminar epithelium which consists of a single layer of squamous cells. Examples: pulmonary alveolar epithelium, endothelium.[FMA].] |
|
squamous epithelium
|
UBERON_0006914 |
[An epithelium characterised by its most superficial layer consisting of squamous epithelial cells.] |
|
multilaminar epithelium
|
UBERON_0000486 |
[Epithelium which consists of more than one layer of epithelial cells that may or may not be in contact with a basement membrane. Examples: keratinized stratified squamous epithelium, ciliated stratified columnar epithelium.[FMA].] |
|
regulation of protein localization to lysosome
|
GO_0150031 |
[Any process that modulates the frequency, rate or extent of protein localization to lysosome.] |
|
negative regulation of protein localization to lysosome
|
GO_0150033 |
[Any process that stops, prevents or reduces the frequency, rate or extent of protein localization to lysosome.] |
|
negative regulation of protein localization
|
GO_1903828 |
[Any process that stops, prevents or reduces the frequency, rate or extent of a protein localization.] |
|
positive regulation of protein localization to lysosome
|
GO_0150032 |
[Any process that activates or increases the frequency, rate or extent of protein localization to lysosome.] |
|
positive regulation of protein localization
|
GO_1903829 |
[Any process that activates or increases the frequency, rate or extent of a protein localization.] |
|
wall of fallopian tube
|
UBERON_0036441 |
|
|
reproductive structure
|
UBERON_0005156 |
[Any anatomical structure that is part of the reproductive system.] |
|
tissue regeneration
|
GO_0042246 |
[The regrowth of lost or destroyed tissues.] |
|
developmental growth
|
GO_0048589 |
[The increase in size or mass of an entire organism, a part of an organism or a cell, where the increase in size or mass has the specific outcome of the progression of the organism over time from one condition to another.] |
|
regeneration
|
GO_0031099 |
[The regrowth of a lost or destroyed body part, such as an organ or tissue. This process may occur via renewal, repair, and/or growth alone (i.e. increase in size or mass).] |
|
nerve ending
|
UBERON_0012453 |
[Specialized terminations of peripheral neurons. Nerve endings include NEUROEFFECTOR JUNCTION(s) by which neurons activate target organs and sensory receptors (see RECEPTORS, SENSORY) which transduce information from the various sensory modalities and send it centrally in the nervous system. Presynaptic nerve endings are PRESYNAPTIC TERMINALS.] |
|
multi cell part structure
|
UBERON_0005162 |
[A structure consisting of multiple cell components but which is not itself a cell and does not have (complete) cells as a part.] |
|
Meissner's corpuscle
|
UBERON_0012450 |
[A type of nerve ending in the skin that is responsible for sensitivity to light touch. In particular, they have highest sensitivity (lowest threshold) when sensing vibrations lower than 50 Hertz. They are rapidly adaptive receptors.] |
|
Merkel nerve ending
|
UBERON_0012456 |
[Mechanoreceptors found in the skin and mucosa of vertebrates that provide touch information to the brain. The information they provide are those regarding pressure and texture. Each ending consists of a Merkel cell in close apposition with an enlarged nerve terminal.] |
