|
positive regulation of B cell apoptotic process
|
GO_0002904 |
[Any process that activates or increases the frequency, rate, or extent of B cell apoptotic process.] |
|
mature B cell apoptotic process
|
GO_0002901 |
[Any apoptotic process in a B cell that is mature, having left the bone marrow.] |
|
negative regulation of mature B cell apoptotic process
|
GO_0002906 |
[Any process that stops, prevents, or reduces the frequency, rate, or extent of mature B cell apoptotic process.] |
|
negative regulation of B cell apoptotic process
|
GO_0002903 |
[Any process that stops, prevents, or reduces the frequency, rate, or extent of B cell apoptotic process.] |
|
regulation of B cell apoptotic process
|
GO_0002902 |
[Any process that modulates the frequency, rate, or extent of B cell apoptotic process.] |
|
Glaucocystophyceae
|
NCBITaxon_38254 |
|
|
Caniformia
|
NCBITaxon_379584 |
|
|
round ligament of uterus
|
UBERON_0006589 |
[The round ligament of the uterus originates at the uterine horns, in the parametrium. It leaves the pelvis via the deep inguinal ring, passes through the inguinal canal and continues on to the labia majora where its fibers spread and mix with the tissue of the mons pubis[WP]. A fibromuscular band that attaches to the uterus and then passes along the broad ligament, out through the inguinal ring, and into the labium majus[MESH].] |
|
forelimb mesenchyme
|
UBERON_0003859 |
[Mesenchyme that is part of a developing forelimb [Automatically generated definition].] |
|
lung pericyte
|
CL_0009089 |
[A pericyte cell that is part of a lung.] |
|
Feliformia
|
NCBITaxon_379583 |
|
|
circulating angiogenic cell
|
CL_0009088 |
[An adult endothelial progenitor cell characterised in vivo by homing to ischemic sites and paracrine support of angiogenesis. These cells do not form colonies.] |
|
ligamentum venosum
|
UBERON_0006587 |
[The ligamentum venosum is the fibrous remnant of the ductus venosus of the fetal circulation. Usually, it is attached to the left branch of the portal vein within the porta hepatis (gateway to the liver). It may be continuous with the round ligament of liver (ligamentum teres hepatis). It is invested by the peritoneal folds of the lesser omentum within a fissure on the inferior surface of the liver between the caudate and main parts of the left lobe.] |
|
transformed vein
|
UBERON_0006592 |
[A remnant of embryonic structure that develops_from a vein.] |
|
ductus venosus
|
UBERON_0002083 |
[The vascular channel in the fetus passing through the liver and joining the umbilical vein with the inferior vena cava.] |
|
fused extravillous trophoblast
|
CL_0009087 |
[An extravillous trophoblast that is polynuclear.] |
|
round ligament of liver
|
UBERON_0006588 |
[A degenerative string of tissue that exists in the free edge of the falciform ligament of the liver. Anatomically, the round ligament divides the left part of the liver into medial and lateral sections. The round ligament represents the remnant of the fetal left umbilical vein. The round ligament therefore only exists in mammals. Prenatally and for a month or two after birth, the left umbilical vein is patent, subsequently degenerating to fibrous tissue, the round ligament. The umbilical vein/round ligament inserts around the umbilicus and is an important landmark of the inner surface of the anterior abdominal wall[WP].] |
|
ligament of liver
|
UBERON_0013139 |
[A nonskeletal ligament that is part of a liver.] |
|
umbilical vein
|
UBERON_0002066 |
[The umbilical vein is a blood vessel present during fetal development that carries oxygenated blood from the placenta to the growing fetus. [WP,unvetted].] |
|
embryonic skeletal muscle fiber
|
CL_0009097 |
[A skeletal muscle fiber found in an embryo. In mammalian embryos, skeletal muscle expresses myosin heavy chain-embryonic (MyHC-emb, encoded by the MYH3 gene), which regulates skeletal muscle development.] |
