Description
Human Guanine nucleotide-binding protein G(s) subunit alpha PharmaGenie ELISA Kit (SBRS0030)
Product SKU: | SBRS0030 |
Size: | 96T |
Application: | This ELISA kit is designed to only detect Guanine nucleotide-binding protein G(s) subunit alpha isoforms Xlas. |
Target Species: | Human, Mouse, Rat |
Compatible Sample Types: | Cell Culture Supernatants, Plasma, Serum |
Design Principle: | Competition-based |
Method of Detection: | Colorimetric |
Quantitative/Semi-Quantitative: | Quantitative |
Range: | 0.1-1,000 ng/ml |
Sensitivity: | 4.3 ng/ml |
Storage/Stability: | Standard, biotinylated peptide, and positive control should be stored at -20°C after arrival. Avoid multiple freeze-thaws. The remaining kit components may be stored at 4°C. Opened Microplate Wells and antibody (Item N) may be stored for up to 1 month at 2 to 8°C. Return unused wells to the pouch containing desiccant pack and reseal along entire edge. |
- Pre-Coated 96-well Strip Microplate
- Wash Buffer
- Standard Peptide
- Assay Diluent(s)
- Biotinylated Peptide
- HRP-Streptavidin
- TMB One-Step Substrate
- Stop Solution
- Assay Diagram
- Positive Control Sample
- Capture Antibody
- Technical Manual
Other materials and equipment required:
The Assay Genie Human Guanine nucleotide-binding protein G(s) subunit alpha PharmaGenie ELISA Kit (SBRS0030) will require other equipment and materials to carry out the assay. Please see list below for further details.
- Distilled or deionized water
- Precision pipettes to deliver 2 ul to 1 ml volumes
- Adjustable 1-25 ml pipettes for reagent preparation
- 100 ml and 1 liter graduated cylinders
- Tubes to prepare standard and sample dilutions
- Orbital shaker
- Aluminum foil
- Saran Wrap
- Absorbent paper
- Microplate reader capable of measuring absorbance at 450nm
- SigmaPlot software (or other software that can perform four-parameter logistic regression models)
- Prepare all reagents, samples and standards as instructed.
- Add 100 ul detection antibody to each well.
- Incubate 1.5 h at RT or O/N at 4°C.
- Add 100 ul standard or sample to each well.
- Incubate 2.5 h at RT.
- Add 100 ul prepared streptavidin solution.
- Incubate 45 min at RT.
- Add 100 ul TMB One-Step Substrate Reagent to each well.
- Incubate 30 min at RT.
- Add 50 ul Stop Solution to each well.
- Read plate at 450 nm immediately.
Guanine nucleotide binding proteins (G proteins) are membrane-associated, heterotrimeric proteins composed of three subunits: alpha, beta, and gamma.[1] G proteins and their receptors (GPCRs) form one of the most prevalent signaling systems in mammalian cells, regulating systems as diverse as sensory perception, cell growth and hormonal regulation.[2] At the cell surface, the binding of ligands such as hormones and neurotransmitters to a GPCR activates the receptor by causing a conformational change, which in turn activates the bound G protein on the intracellular-side of the membrane. The activated receptor promotes the exchange of bound GDP for GTP on the G protein alpha subunit. GTP binding changes the conformation of switch regions within the alpha subunit, which allows the bound trimeric G protein (inactive) to be released from the receptor, and to dissociate into active alpha subunit (GTP-bound) and beta/gamma dimer. The alpha subunit and the beta/gamma dimer go on to activate distinct downstream effectors, such as adenylyl cyclase, phosphodiesterases, phospholipase C, and ion channels. These effectors in turn regulate the intracellular concentrations of secondary messengers, such as cAMP, diacylglycerol, sodium or calcium cations, which ultimately lead to a physiological response, usually via the downstream regulation of gene transcription. G protein classes are defined based on the sequence and function of their alpha subunits, which in mammals fall into several sub-types: G(S)alpha, G(Q)alpha, G(I)alpha, transducin and G(12)alpha. G(S)alpha transduces signals from various cell surface receptors to the cAMP-generating enzyme adenylyl cyclase. Several disease states are linked to the G alpha-S, including McCune-Albright syndrome, pseudohypoparathyroidism, adenomas, testotoxicosis and the action of cholera toxin.