LiveReport™ CRE Assay Kit
The LiveReport™ CRE assay kit is a non-destructive solution for tracking cyclic AMP response element (CRE) binding protein (CRE) modulation in real-time.
Using the LiveReport™ CRE kit you can assay host cell CRE modulation continuously or repeatedly without perturbing the cells under study.
Cells treated with the LiveReport™ CRE assay kit continuously and automatically adjust their bioluminescent intensity to reflect real-time CRE modulation dynamics without any external stimulation required, providing a live stream of response data.
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10 μL Sample Try for free*
Sufficient to perform 10 reactions in the 96-well format or 40 reactions in the 384-well format.
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100 μL Kit $225
Sufficient to perform 100 reactions in the 96-well format or 400 reactions in the 384-well format.
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1,000 μL Kit $2,000
Sufficient to perform 1,000 reactions in the 96-well format or 4,000 reactions in the 384-well format.
*Includes free shipping within the United States.
$50 value. New customers only. Limit one (1) per customer. While supplies last.
Easy To Use
The LiveReport™ CRE assay kit is a non-destructive solution for tracking cAMP response element (CRE) binding protein (CREB) modulation in real-time.
Using the LiveReport™ CRE kit you can assay host cell CRE modulation continuously or repeatedly without perturbing the cells under study.
Cells treated with LiveReport™ CRE assay mix express both luciferase and luciferin synthesis enzymes and continuously and automatically adjust their bioluminescent intensity to reflect real-time CRE modulation dynamics without any external stimulation required.
The LiveReport™ CRE assay mix can be transfected into cells using any standard method. After reagent uptake and expression, CRE modulation can be assayed repeatedly or continuously for up to one week or more, providing a live stream of response data.
Continuous, Automatic Performance
The LiveReport™ CRE assay mix contains:
DNA for luciferase enzyme synthesis
DNA for luciferin generation enzyme synthesis
All external co-factors required for continuous bioluminescence