|
muscle cell migration
|
GO_0014812 |
[The orderly movement of a muscle cell from one site to another, often during the development of a multicellular organism.] |
|
myotube differentiation involved in skeletal muscle regeneration
|
GO_0014908 |
[The process in which a relatively unspecialized cell acquires specialized features of a myotube cell. Myotube differentiation starts with myoblast fusion and the appearance of specific cell markers (this is the cell development step). Then individual myotubes can fuse to form bigger myotubes and start to contract. This process occurs as part of the process of skeletal muscle regeneration. Myotubes are multinucleated cells that are formed when proliferating myoblasts exit the cell cycle, differentiate and fuse.] |
|
myotube cell development involved in skeletal muscle regeneration
|
GO_0014906 |
[The process aimed at the progression of a myotube cell over time, from initial commitment of the cell to a specific fate, to the fully functional differentiated cell. This occurs as part of the process of skeletal muscle regeneration. Myotubes are multinucleated cells that are formed when proliferating myoblasts exit the cell cycle, differentiate and fuse.] |
|
vomeronasal sensory neuron
|
CL_1001561 |
[Chemosensitive cells that innervate the vomernasal organ epithelium and are responsible for receiving and transmitting pheromone signals.] |
|
epithelium of vomeronasal organ
|
UBERON_0003367 |
[An epithelium that is part of a vomeronasal organ [Automatically generated definition].] |
|
vomeronasal organ
|
UBERON_0002255 |
[An organ thought to supplement the olfactory system in receiving pheromonic communication. The sensory part of the organ is in two long, thin sacs, situated on either side of the nasal septum at its base.] |
|
satellite cell activation involved in skeletal muscle regeneration
|
GO_0014901 |
[The process that initiates skeletal muscle satellite cell division by causing it to move from quiescence to the G1 stage of the cell cycle. The cell swells and there are a number of other small changes. The cells then start to divide. Following cell division the cells will differentiate. In adult muscle, satellite cells become activated to divide and differentiate in response to muscle damage.] |
|
skeletal muscle satellite cell activation
|
GO_0014719 |
[The change of a skeletal muscle satellite cell from a mitotically quiescent to a mitotically active state following exposure to some activating factor such as a cellular or soluble ligand. In adult muscle, satellite cells become activated to divide and differentiate in response to muscle damage.] |
|
obsolete bronchioalveolar stem cells
|
CL_1001566 |
[OBSOLETE. A respiratory stem cell found at the junction of the terminal (conductive) bronchiole and the respiratory bronchiole, which gives rise to alveolar cell types and club cells in response to lung injury.] |
|
C-type lectin domain family 6 member A (human)
|
PR_Q6EIG7 |
[A C-type lectin domain family 6 member A that is encoded in the genome of human.] |
|
interleukin-17 receptor B (human)
|
PR_Q9NRM6 |
[An interleukin-17 receptor B that is encoded in the genome of human.] |
|
stomach neuroendocrine cell
|
CL_1000222 |
|
|
glandular cell of stomach
|
CL_0002659 |
[A glandular epithelial cell that is part of the stomach.] |
|
lung neuroendocrine cell
|
CL_1000223 |
|
|
growth plate cartilage chondrocyte
|
CL_1000217 |
|
|
UBERON_0004129
|
UBERON_0004129 |
|
|
M phase
|
GO_0000279 |
[A cell cycle phase during which nuclear division occurs, and which is comprises the phases: prophase, metaphase, anaphase and telophase.] |
|
dikaryon
|
CL_0000603 |
[A fungal cell with two genetically distinct haploid nuclei.] |
|
binucleate cell
|
CL_0000227 |
|
|
heterokaryon
|
CL_0000600 |
[A fungal cell with two or more genetically distinct nuclei.] |
