Skip to main content

GDF-9 Products

Growth Differentiation Factor-9 (GDF-9) is an oocyte-secreted paracrine factor in the TGF-beta superfamily. It forms both non-covalent homodimers and heterodimers with BMP-15, which is coordinately expressed with GDF-9 in the oocyte. GDF-9 signals through TGF-beta RI/ALK-5 and BMPR-II while the GDF-9B/BMP-15 heterodimer is believed to signal through BMPR-II, ALK-4, -5, -7 plus BMPR-IB/ALK-6. SMAD2 and SMAD3 are phosphorylated following activation of receptor complexes by GDF-9.

GDF-9 functions as a paracrine factor in the development of primary follicles in the ovary. It is critical for the growth of granulosa and theca cells and for the differentiation and maturation of the oocyte. GDF-9 is thought to act synergistically with BMP-15 to control the development of the oocyte-cumulus cell complex. In mice, GDF-9:BMP-15 heterodimers have been shown to be more potent regulators of granulosa cell functions compared to GDF-9 homodimers. Aberrant GDF-9 expression and activation are associated with a multitude of common human ovarian disorders including premature ovarian failure and polycystic ovary syndrome.

Products:

Show More

173 results for "GDF-9" in Products

Back to Search Results
Apply

173 results for "GDF-9" in Products

GDF-9 Products

Growth Differentiation Factor-9 (GDF-9) is an oocyte-secreted paracrine factor in the TGF-beta superfamily. It forms both non-covalent homodimers and heterodimers with BMP-15, which is coordinately expressed with GDF-9 in the oocyte. GDF-9 signals through TGF-beta RI/ALK-5 and BMPR-II while the GDF-9B/BMP-15 heterodimer is believed to signal through BMPR-II, ALK-4, -5, -7 plus BMPR-IB/ALK-6. SMAD2 and SMAD3 are phosphorylated following activation of receptor complexes by GDF-9.

GDF-9 functions as a paracrine factor in the development of primary follicles in the ovary. It is critical for the growth of granulosa and theca cells and for the differentiation and maturation of the oocyte. GDF-9 is thought to act synergistically with BMP-15 to control the development of the oocyte-cumulus cell complex. In mice, GDF-9:BMP-15 heterodimers have been shown to be more potent regulators of granulosa cell functions compared to GDF-9 homodimers. Aberrant GDF-9 expression and activation are associated with a multitude of common human ovarian disorders including premature ovarian failure and polycystic ovary syndrome.

Products:

Show More
Applications: IHC, WB, ELISA
Reactivity: Human
Applications: WB, ELISA
Reactivity: Human
Applications: WB, ELISA
Reactivity: Human
Applications: IHC, WB, ELISA
Reactivity: Human
Applications: IHC, WB, ELISA
Reactivity: Human
Applications: IHC, WB, ELISA
Reactivity: Human
Applications: WB, ELISA
Reactivity: Human
Applications: IHC, WB, ELISA
Reactivity: Human
Applications: WB, ELISA
Reactivity: Human
Applications: IHC, WB, ELISA
Reactivity: Human
Applications: WB, ELISA
Reactivity: Human
Applications: WB, ELISA
Reactivity: Human
Applications: WB, IHC
Reactivity: Human, Mouse, Hamster
Applications: WB, IHC
Reactivity: Mouse
Applications: Neut
Reactivity: Mouse
Applications: Flow, CyTOF-ready, ICC
Reactivity: Human
Applications: WB
Reactivity: Mouse
Applications: WB
Reactivity: Mouse
Applications: Flow
Reactivity: Human
Applications: Flow
Reactivity: Human
Applications: Flow
Reactivity: Human
Applications: Flow
Reactivity: Human
Applications: Flow
Reactivity: Human
Results Per Page
5 10 25 50
/ 7