|
dermis lymphatic vessel endothelial cell
|
CL_2000011 |
[Any endothelial cell of lymphatic vessel that is part of a dermis.] |
|
bladder microvascular endothelial cell
|
CL_2000040 |
[Any microvascular endothelial cell that is part of a urinary bladder.] |
|
bladder cell
|
CL_1001319 |
|
|
male urethra development
|
GO_0061069 |
[The progression of the male urethra over time from its initial formation to the mature structure. The male urethra is a renal system organ that carries urine from the bladder through the penis to outside the body.] |
|
urethra development
|
GO_0061068 |
[The progression of the urethra over time from its initial formation to the mature structure. The urethra is a renal system organ that carries urine from the bladder to outside the body.] |
|
regulation of developmental pigmentation
|
GO_0048070 |
[Any process that modulates the frequency, rate or extent of the developmental process that results in the deposition of coloring matter in an organism.] |
|
prostate gland microvascular endothelial cell
|
CL_2000059 |
[Any microvascular endothelial cell that is part of a prostate gland.] |
|
dendritic cell dendrite assembly
|
GO_0097026 |
[Formation of dendrites, branched cellular projections (or cytoplasmic extension) that are extended from the surface of a dendritic immune cell, and which enable the cell to sample luminal pathogens and increase the surface area for antigen presentation to T cells.] |
|
obsolete retina retinal ganglion cell
|
CL_2000050 |
[Any retinal ganglion cell that is part of a retina.] |
|
mature conventional dendritic cell differentiation
|
GO_0097029 |
[The process in which antigen-activated dendritic cells acquire the specialized features of a mature conventional dendritic cell. Mature conventional dendritic cells upregulate the surface expression of MHC molecules, chemokine receptors and adhesion molecules, and increase the number of dendrites (cytoplasmic protrusions) in preparation for migration to lymphoid organs where they present antigen to T cells.] |
|
mature conventional dendritic cell
|
CL_0000841 |
[A mature cell of the conventional dendritic cell lineage, characterized by a high capacity for antigen presentation and typically found in a lymph node.] |
|
positive regulation of nematode larval development
|
GO_0061063 |
[Any process that increases the rate, frequency, or extent of nematode larval development, the process whose specific outcome is the progression of the nematode larva over time, from its formation to the mature structure. Nematode larval development begins with the newly hatched first-stage larva (L1) and ends with the end of the last larval stage (for example the fourth larval stage (L4) in C. elegans). Each stage of nematode larval development is characterized by proliferation of specific cell lineages and an increase in body size without alteration of the basic body plan. Nematode larval stages are separated by molts in which each stage-specific exoskeleton, or cuticle, is shed and replaced anew.] |
|
regulation of nematode larval development
|
GO_0061062 |
[Any process that modulates the rate, frequency, or extent of nematode larval development, the process whose specific outcome is the progression of the nematode larva over time, from its formation to the mature structure. Nematode larval development begins with the newly hatched first-stage larva (L1) and ends with the end of the last larval stage (for example the fourth larval stage (L4) in C. elegans). Each stage of nematode larval development is characterized by proliferation of specific cell lineages and an increase in body size without alteration of the basic body plan. Nematode larval stages are separated by molts in which each stage-specific exoskeleton, or cuticle, is shed and replaced anew.] |
|
nematode larval development
|
GO_0002119 |
[The process whose specific outcome is the progression of the nematode larva over time, from its formation to the mature structure. Nematode larval development begins with the newly hatched first-stage larva (L1) and ends with the end of the last larval stage (for example the fourth larval stage (L4) in C. elegans). Each stage of nematode larval development is characterized by proliferation of specific cell lineages and an increase in body size without alteration of the basic body plan. Nematode larval stages are separated by molts in which each stage-specific exoskeleton, or cuticle, is shed and replaced anew.] |
|
calvarial osteoblast
|
CL_2000058 |
[Any osteoblast that is part of a skull.] |
|
femural osteoblast
|
CL_2000057 |
[Any osteoblast that is part of a femur.] |
|
liver dendritic cell
|
CL_2000055 |
[Any dendritic cell that is part of a liver.] |
|
hepatic pit cell
|
CL_2000054 |
[A large, granular, liver specific natural killer cell that adheres to the endothelial cells of the hepatic sinusoid.] |
|
umbilical artery endothelial cell
|
CL_2000052 |
[Any endothelial cell of artery that is part of a umbilical cord.] |
|
negative regulation of nematode larval development
|
GO_0061064 |
[Any process that decreases the rate, frequency, or extent of nematode larval development, the process whose specific outcome is the progression of the nematode larva over time, from its formation to the mature structure. Nematode larval development begins with the newly hatched first-stage larva (L1) and ends with the end of the last larval stage (for example the fourth larval stage (L4) in C. elegans). Each stage of nematode larval development is characterized by proliferation of specific cell lineages and an increase in body size without alteration of the basic body plan. Nematode larval stages are separated by molts in which each stage-specific exoskeleton, or cuticle, is shed and replaced anew.] |
