CHO-K1 Rat OX2 Stable Cell

CHO-K1/Rat OX2 Stable Cell

Item	Cat#	Price
Stable Cell Line	SNB-G-0178C	$19,800
Compound Testing Services	CT-001	$1,850 per 384w plate *(Up To 16 cpds Dose)*

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Product Description

The Orexin Receptor 2 (OXR2), also known as HCRTR2, is a G protein-coupled receptor primarily expressed in regions such as the cerebral cortex, hippocampus, and hypothalamus. OXR2 plays important physiological roles by regulating the sleep-wake cycle, mood, learning and memory, feeding behavior, reward/addiction, and energy balance. Dysfunction of OXR2 is closely associated with sleep disorders and is involved in the pathophysiology of conditions such as insomnia, hypersomnia, depression, and narcolepsy.

Screeningbio’s CHO-K1/Rat OX2 cell line overexpress OX2 receptor and is designed to detect increases in intracellular IP-1 levels in response to agonist stimulation of the receptor. Cisbio HTRF IP-1 kit can be used to detect the signal.

Product Specifications

Target Type	GPCR
Species	Rat
HGNC Symbol	HCRTR2
Accession Number	SNB-G-0178C
Parental Line	CHO-K1
Lot#	See Vial
Storage	Liquid Nitrogen

Data

CHO-K1/Rat OX2 Agonist Assay. CHO-K1/Rat OX2 cells were treated with the reference agonist. The assay was run based on Revvity IP-one HTRF protocol. Non-linear regression was used to plot activity changes vs. [Compound, M], and EC50 /IC50 values were determined, using GraphPad Prism software. — **CHO-K1/Rat OX2 Agonist Assay.** CHO-K1/Rat OX2 cells were treated with the reference agonist. The assay was run based on Revvity IP-one HTRF protocol. Non-linear regression was used to plot activity changes vs. [Compound, M], and EC50 /IC50 values were determined, using GraphPad Prism software.

Target Background

The Orexin Receptor 2 (OXR2), also known as HCRTR2, is a G protein-coupled receptor primarily expressed in regions such as the cerebral cortex, hippocampus, and hypothalamus.

OXR2 plays important physiological roles by regulating the sleep-wake cycle, mood, learning and memory, feeding behavior, reward/addiction, and energy balance. Dysfunction of OXR2 is closely associated with sleep disorders and is involved in the pathophysiology of conditions such as insomnia, hypersomnia, depression, and narcolepsy.