|
positive regulation of chondrocyte hypertrophy
|
GO_1903043 |
[Any process that activates or increases the frequency, rate or extent of chondrocyte hypertrophy.] |
|
positive regulation of chondrocyte development
|
GO_1902761 |
[Any process that activates or increases the frequency, rate or extent of chondrocyte development.] |
|
bone collagen fibril
|
UBERON_0011863 |
[The connective tissue bundles in the extracellular matrix of bone tissue that are composed of collagen, and play a role in tissue strength and elasticity.] |
|
negative regulation of chondrocyte hypertrophy
|
GO_1903042 |
[Any process that stops, prevents or reduces the frequency, rate or extent of chondrocyte hypertrophy.] |
|
neural crest cell migration involved in sympathetic nervous system development
|
GO_1903045 |
[Any neural crest cell migration that is involved in sympathetic nervous system development.] |
|
aorta collagen fibril
|
UBERON_0011861 |
[The connective tissue bundles in the extracellular matrix of aorta tissue that are composed of collagen, and play a role in tissue strength and elasticity.] |
|
regulation of cell differentiation involved in embryonic placenta development
|
GO_0060800 |
[Any process that modulates the rate, frequency or extent of cell differentiation that contributes to the progression of the placenta over time, from its initial condition to its mature state.] |
|
cloaca development
|
GO_0035844 |
[The process whose specific outcome is the progression of the cloaca over time, from it's formation to the mature structure. The cloaca is the common chamber into which intestinal, genital and urinary canals open in vertebrates.] |
|
negative regulation of cell differentiation involved in embryonic placenta development
|
GO_0060806 |
[Any process that decreases the rate, frequency or extent of cell differentiation that contributes to the progression of the placenta over time, from its initial condition to its mature state.] |
|
uterine epithelium development
|
GO_0035847 |
[The progression of an epithelium of the uterus over time from its initial formation to the mature structure. An epithelium is a tissue that covers the internal or external surfaces of an anatomical structure.] |
|
oviduct epithelium development
|
GO_0035846 |
[The progression of the oviduct epithelium over time from its initial formation to the mature structure. An oviduct is a tube through which an ova passes from the ovary to the uterus, or from the ovary to the outside of the organism. The oviduct epithelium is the specialized epithelium that lines the oviduct.] |
|
insect male genital disc primordium
|
UBERON_6001662 |
[Primordium from which the male genital disc derives.] |
|
insect genital disc primordium
|
UBERON_6001661 |
[Primordium from which the genital disc develops.] |
|
oviduct morphogenesis
|
GO_0035848 |
[The process in which anatomical structures of the oviduct are generated and organized. An oviduct is a tube through which an ova passes from the ovary to the uterus, or from the ovary to the outside of the organism.] |
|
insect imaginal disc primordium
|
UBERON_6001649 |
[Population of contiguous, morphologically distinct cells that will form an imaginal disc.] |
|
photoreceptor cell outer segment organization
|
GO_0035845 |
[A process that is carried out at the cellular level and results in the assembly, arrangement of constituent parts, or disassembly of the outer segment of a photoreceptor cell, a sensory cell that reacts to the presence of light. The outer segment of the photoreceptor cell contains the light-absorbing materials.] |
|
insect embryonic/larval circulatory system
|
UBERON_6001664 |
[Tubular system of the embryo/larva through which hemolymph flows.] |
|
insect female genital disc primordium
|
UBERON_6001663 |
[Primordium from which the female genital disc derives.] |
|
insect embryonic/larval lymph gland
|
UBERON_6001668 |
[Hematopoietic organ of the larva, located along the dorsal vessel, behind the brain. It produces the plasmatocytes, crystal cells and lamellocytes which are released at the end of the larval instar and onset of metamorphosis. It is composed of 3 pairs of bilateral lobes: an anterior primary lobe, a posterior secondary lobe and the most posterior lobe (or multiple lobes), the tertiary lobe. Each lobe is separated by pericardial cells. In the late embryo, the lymph gland consists of a single pair of lobes (primary lobes) containing around 20 cells each that flank the dorsal vessel. By the second larval instar, the lymph gland is composed of two or three new pairs of posterior lobes, and the primary lobes have increased in size to contain around 200 cells. During the first and early second larval instars, the lymph gland comprises only the hematopoietic progenitor population. The lymph gland increases in size ten-fold by the late third instar, and at this stage the progenitor cells (prohemocytes) become restricted to the medial region (medullary zone) of the primary lobe and become quiescent. The differentiated hemocytes are found in the periphery (cortical zone) of the primary lobe and these cells proliferate extensively. The posterior signalling center is a group of about 30 cells at the posterior tip of the primary lobe that secretes several signalling molecules and functions as a stem-cell niche. The secondary and tertiary lobes contain prohemocytes, and rarely a differentiated cell. Lymph glands are eliminated at metamorphosis.] |
|
olefinic compound
|
CHEBI_78840 |
[Any organic molecular entity that contains at least one C=C bond.] |
