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Tag-lite pT8-CLIP (Zeocin) Plasmid, 10 µg

Tag-lite plasmid featuring a CLIP-Tag sequence, a T8 peptide sequence, and a Zeocin resistance gene.Cloning and expression of the GPCR of interest as a SNAP-Tag or CLIP-Tag fusion protein enables its subsequent labeling with Terbium.

For research use only. Not for use in diagnostic procedures.

Feature Specification
Application Receptor-Ligand Binding

Tag-lite plasmid featuring a CLIP-Tag sequence, a T8 peptide sequence, and a Zeocin resistance gene.Cloning and expression of the GPCR of interest as a SNAP-Tag or CLIP-Tag fusion protein enables its subsequent labeling with Terbium.

For research use only. Not for use in diagnostic procedures.

Product Variant
Unit Size: 10 mg
Part #:
PT8CLIPZEO
List Price
USD 2,098.00

Overview

Over the past few years, SNAP-Tag technology combined with TR-FRET has paved the road to the development of many non-radioactive, no-wash binding assays. The method is based on transfecting cells using plasmids encoding a SNAP-Tag and subsequently labeling them with Terbium. PT8CLIPZEO is a backbone containing the gene for the CLIP tag, a promoter, a zeomycin resistance gene and MCS (Multiple Cloning Site).

Specifications

Application
Receptor-Ligand Binding
Brand
Tag-lite
Detection Modality
HTRF
Product Group
Plasmids
Shipping Conditions
Shipped in Dry Ice
Target Class
GPCR
Technology
TR-FRET
Therapeutic Area
Cardiovascular
Infectious Diseases
Metabolism/Diabetes
NASH/Fibrosis
Neuroscience
Oncology & Inflammation
Rare Diseases
Unit Size
10 mg

Video gallery

How it works

Step 1 - Plasmid creation

Using standard cloning techniques, insert the GPCR gene of interest into the empty plasmid. Remember that when you are designing a plasmid, the GPCR gene should be kept in the frame.

gpcr-how-it-works-step-1-plasmid-creation-receptor-cloning-pt8clipzeo
Step 2 - Plasmid transfection

Use standard transfection techniques (see transient transfection protocol) to transiently express the SNAP-GPCR of interest in your cell line.

Step 3 - Receptor labeling

CLIP-tag®, is a small fusion tag that covalently interacts with specific substrates. CLIP-tag allows specific and covalent labeling of any protein of interest. Cells are provided unlabeled and need to be labeled with Lumi4-Terbium prior to running a binding assay. 

gpcr-how-it-works-step-3-receptor-labeling-chemical-reaction-pt8clipzeo
Step 4 - Understand the assay principle

Running a receptor binding assay using Tag-lite is as easy as it can get. Simply dispense 10 µL of labeled cells into each well, followed by 5 µL of labeled ligand and 5 µL of the compound you wish to test. Like all HTRF assays, Tag-lite assays do not require any washing steps. A diagram of the procedure to be followed is given on the right.

gpcr-how-it-works-step-4-understand-the-assay-principle-receptor-binding-pt8clipzeo
Step 5 - Saturation binding (KD)

A saturation binding assay measures total and non-specific binding for increasing concentrations of ligand under equilibrium conditions. To perform the assay, the fluorescent ligand is titrated into a solution containing a fixed amount of labeled cells and then incubated to equilibrium. The HTRF ratio obtained from this titration is the total binding.

gpcr-how-it-works-step-5-saturation-binding-kd-pt8clipzeo
how-it-works-pt8-clip-zeocin
Step 6 - Competitive binding (KI)

A competitive binding assay is performed to measure the dissociation constant, Ki. To perform the assay, the compound is titrated into a solution containing a fixed concentration of fluorescent ligand and a fixed amount of cells.

gpcr-how-it-works-step-6-competitive-binding-ki-pt8clipzeo
how-it-works-pt8-clip-zeocin

 

Resources

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Guide
HTRF solutions, guide to major applications

This guide provides you an overview of HTRF applications in several therapeutic areas.

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