All terms in CL
| Label | Id | Description |
|---|---|---|
| red muscle cell | CL_0002210 | [A slow muscle cell that contains high levels of myoglobin and oxygen storing proteins giving the cell a red appearance.] |
| type II muscle cell | CL_0002212 | [A fast muscle fiber cell that stores energy in the form of glycogen and creatine phosphate.] |
| type IIb muscle cell | CL_0002215 | [A type II muscle cell that contains a low content of myoglobin, relatively few mitochondria, relatively few blood capillaries and large amounts of glycogen. Type II B fibres are white, geared to generate ATP by anaerobic metabolic processes, not able to supply skeletal muscle fibres continuously with sufficient ATP, fatigue easily, split ATP at a fast rate and have a fast contraction velocity.] |
| V(D)J recombination-activating protein 2 (zebrafish) | PR_O13034 | [A V(D)J recombination-activating protein 2 that is encoded in the genome of zebrafish.] |
| intermediate muscle cell | CL_0002216 | [An intermediate muscle cell that has characteristics of both fast and slow muscle cells.] |
| V(D)J recombination-activating protein 1 (zebrafish) | PR_O13033 | [A V(D)J recombination-activating protein 1 that is encoded in the genome of zebrafish.] |
| Tetraodon nigroviridis | NCBITaxon_99883 | |
| type I muscle cell | CL_0002211 | [A slow muscle cell that has large amounts of myoglobin, stores energy as triglycerides, generates ATP by the oxidative method and is resistant to fatigue.] |
| V(D)J recombination-activating protein 2 (human) | PR_P55895 | [A V(D)J recombination-activating protein 2 that is encoded in the genome of human.] |
| Monodelphis | NCBITaxon_13615 | |
| Monodelphis domestica | NCBITaxon_13616 | |
| intermediate trophoblast cell | CL_0002217 | [A trophoblast that leaves the placenta and invades the endometrium and myometrium. This cell type is crucial in increasing blood flow to the fetus.] |
| anchoring trophoblast | CL_0002219 | [A trophoblast found at the junction of the placenta. This cell type makes a unique fibronectin-trophouteronectin junction that helps mediate attachment of the placenta to the uterus. This cell type is also found junction of the chorion layer of the external membranes and the decidua.] |
| lens epithelial cell | CL_0002224 | [A cell of the cuboidal epithelium that covers the lens. The cells of the lens epithelium regulate most of the homeostatic functions of the lens. As ions, nutrients, and liquid enter the lens from the aqueous humor, Na+/K+ ATPase pumps in the lens epithelial cells pump ions out of the lens to maintain appropriate lens osmolarity and volume, with equatorially positioned lens epithelium cells contributing most to this current. The activity of the Na+/K+ ATPases keeps water and current flowing through the lens from the poles and exiting through the equatorial regions. The cells of the lens epithelium also serve as the progenitors for new lens fibers. It constantly lays down fibers in the embryo, fetus, infant, and adult, and continues to lay down fibers for lifelong growth.] |
| secondary lens fiber | CL_0002225 | [A lens fiber cell that develops from primary lens fiber; located towards the center of lens; cell organelles are normally degraded or in the process of being degraded.] |
| primary lens fiber | CL_0002228 | [An elongating cell that rapidly obliterates the lumen of the lens vesicle. Subsequently, differentiation of this cell type at the lens equator leads to the formation of secondary fiber cells that come to overlie the primary fibers.] |
| non-nucleated secondary lens fiber | CL_0002226 | [A secondary lens fiber cell that lacks a nucleus.] |
| nucleated secondary lens fiber | CL_0002227 | [A secondary fiber cell that contains a nucleus.] |
| interstitial cell of pineal gland | CL_0002220 | [A cell located between the pinealocytes.] |
| keratinized squamous cell of esophagus | CL_0002221 | [A squamous cell that has keratin in the esophagus.] |