Vmn2r11 Activators
Chemical activators of Vmn2r11 can influence its activation through various signaling pathways that are intrinsic to the cellular communication landscape. Acetylcholine, by engaging with muscarinic and nicotinic receptors, initiates a series of downstream signaling events that can lead to the activation of Vmn2r11. This is also true for norepinephrine and epinephrine that bind to adrenergic receptors, triggering second messenger systems, including cyclic AMP, which in turn can activate Vmn2r11. Similarly, dopamine and serotonin exert their effects through their respective receptors, influencing cAMP among other intracellular signaling pathways, and this modulation of the cellular signaling environment can activate Vmn2r11. Histamine, by acting on its receptors, can influence intracellular calcium levels and cyclic AMP, pathways that also have the capacity to activate Vmn2r11.
Furthermore, ATP, by activating purinergic receptors, can lead to alterations in intracellular calcium and cAMP levels, which can activate Vmn2r11. Neurotransmitters such as GABA and glycine, upon interacting with their respective receptors, bring about changes in intracellular ion concentrations and modulate cellular signaling pathways, which can result in the activation of Vmn2r11. Cortisol binds to its receptors and can influence gene transcription and signal transduction pathways that have the capability to activate Vmn2r11. Lastly, Substance P interacts with neurokinin receptors, modulating intracellular pathways involving cAMP and calcium. This modulation can activate Vmn2r11, as it is part of the extensive network of neuronal signaling pathways influenced by such neuromodulators. Each of these chemicals, through their unique mechanisms of receptor interaction and subsequent signaling cascades, can contribute to the activation of Vmn2r11, reflecting the intricate web of cellular communication and signaling in which Vmn2r11 is involved.
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| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
L-Noradrenaline | 51-41-2 | sc-357366 sc-357366A | 1 g 5 g | $326.00 $485.00 | 3 | |
Norepinephrine, through its interaction with adrenergic receptors, can activate second messenger systems such as cyclic AMP, which could lead to the activation of Vmn2r11 by altering the intracellular signaling environment. | ||||||
L-Glutamic Acid | 56-86-0 | sc-394004 sc-394004A | 10 g 100 g | $297.00 $577.00 | ||
Glutamate activates various glutamate receptors, which can modulate ion channels and second messenger pathways. This activity has the potential to activate Vmn2r11 by affecting the cellular signaling milieu, in which Vmn2r11 operates. | ||||||
Dopamine | 51-61-6 | sc-507336 | 1 g | $290.00 | ||
Dopamine interacts with dopamine receptors, influencing various intracellular signaling pathways such as cAMP, which may result in the activation of Vmn2r11, as dopamine signaling is broadly connected to cellular activation processes. | ||||||
Serotonin hydrochloride | 153-98-0 | sc-201146 sc-201146A | 100 mg 1 g | $118.00 $187.00 | 15 | |
Serotonin binds to serotonin receptors, possibly leading to the activation of Vmn2r11 through multiple signaling pathways, including those involving cAMP, which are known to be associated with cellular activation mechanisms that Vmn2r11 might be part of. | ||||||
Histamine, free base | 51-45-6 | sc-204000 sc-204000A sc-204000B | 1 g 5 g 25 g | $94.00 $283.00 $988.00 | 7 | |
Histamine, through its action on histamine receptors, can influence intracellular calcium levels and cyclic AMP, which are part of signaling pathways that could activate Vmn2r11. | ||||||
ADP | 58-64-0 | sc-507362 | 5 g | $54.00 | ||
ATP can activate purinergic receptors leading to changes in intracellular calcium and cAMP levels. This alteration in signaling dynamics has the potential to activate Vmn2r11, given its involvement in cellular signaling processes. | ||||||
GABA | 56-12-2 | sc-203053 sc-203053A sc-203053B sc-203053C | 10 g 25 g 5 kg 10 kg | $64.00 $136.00 $459.00 $765.00 | 2 | |
GABA's activation of GABA receptors affects intracellular chloride levels and can modulate other signaling pathways. Such modulation can lead to the activation of Vmn2r11 as it is integrated into the broader network of neuronal signaling. | ||||||
Glycine | 56-40-6 | sc-29096A sc-29096 sc-29096B sc-29096C | 500 g 1 kg 3 kg 10 kg | $41.00 $71.00 $112.00 $357.00 | 15 | |
Glycine activates its receptors, potentially causing an influx of chloride ions and altering cellular signaling. This change in signaling can activate Vmn2r11, which is connected to these neurotransmitter-mediated pathways. | ||||||
(−)-Epinephrine | 51-43-4 | sc-205674 sc-205674A sc-205674B sc-205674C sc-205674D | 1 g 5 g 10 g 100 g 1 kg | $41.00 $104.00 $201.00 $1774.00 $16500.00 | ||
Epinephrine, through its action on adrenergic receptors, can induce changes in cAMP and calcium signaling pathways, which can activate Vmn2r11, given its association with these broad signaling networks. | ||||||
Hydrocortisone | 50-23-7 | sc-300810 | 5 g | $102.00 | 6 | |
Cortisol binds to glucocorticoid receptors that can influence gene transcription and signal transduction pathways. This action can lead to the activation of Vmn2r11 by altering the cellular environment and signaling context in which Vmn2r11 functions. | ||||||