Dopamine Receptor d1 CLIA Kit
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- Target See all Dopamine Receptor d1 (DRD1) CLIA Kits
- Dopamine Receptor d1 (DRD1) (Dopamine Receptor D1 (DRD1))
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Reactivity
- Rat
- Detection Method
- Chemiluminescent
- Method Type
- Sandwich ELISA
- Detection Range
- 0.156 ng/mL - 10 ng/mL
- Minimum Detection Limit
- 0.156 ng/mL
- Application
- ELISA
- Purpose
- Rat Dopamine Receptor D1 (DRD1) CLIA Kit is a Sandwich CLIA Kit for use with Tissue homogenates, cell lysates and other biological fluids.
- Sample Type
- Cell Lysate, Tissue Homogenate
- Analytical Method
- Quantitative
- Sensitivity
- < 0.055 ng/mL
- Top Product
- Discover our top product DRD1 ELISA Kit
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- Application Notes
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Stability: The stability of the kit is determined by the rate of activity loss. The loss rate is less than 5 % within the expiration date under appropriate storage conditions. To minimize performance fluctuations, operation procedures and lab conditions should be strictly controlled. It is also strongly suggested that the whole assay is performed by the same user throughout.
Recommended dilutions: Optimal dilutions/concentrations should be determined by the end user.
Standard Form: Lyophilized
- Plate
- Pre-coated
- Restrictions
- For Research Use only
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- Storage
- 4 °C/-20 °C
- Storage Comment
- Upon receipt, store the kit according to the storage instruction in the kit's manual.
- Expiry Date
- 6 months
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- Target See all Dopamine Receptor d1 (DRD1) CLIA Kits
- Dopamine Receptor d1 (DRD1) (Dopamine Receptor D1 (DRD1))
- Abstract
- DRD1 Products
- Synonyms
- DRD1 CLIA Kit, Dop1 CLIA Kit, D1A CLIA Kit, DADR CLIA Kit, DRD1A CLIA Kit, drd1 CLIA Kit, C030036C15Rik CLIA Kit, Drd-1 CLIA Kit, Drd1 CLIA Kit, Gpcr15 CLIA Kit, D1a CLIA Kit, Drd1a CLIA Kit, dopamine receptor D1 CLIA Kit, dopamine receptor, D1 CLIA Kit, dopamine receptor D1b CLIA Kit, DRD1 CLIA Kit, Dop1 CLIA Kit, drd1b CLIA Kit, Drd1 CLIA Kit
- Pathways
- cAMP Metabolic Process, Inositol Metabolic Process, Protein targeting to Nucleus, Feeding Behaviour, Smooth Muscle Cell Migration, Regulation of long-term Neuronal Synaptic Plasticity
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