Thermo Scientific Pierce
Gaussia-Firefly Luciferase Dual Assay Kit provides simultaneous detection of mammals Essential reagents for intracellular
Gaussia and red firefly luciferase activity in whole-cell lysates.
Gaussia- Firefly Luciferase Dual Detection Kit Features:
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Simultaneously—Simultaneous detection of two luciferase activities Perform filter-based wavelength separation detection
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Sensitive—Measure bright blue
Gaussia and red firefly luciferase activity in the same sample
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Fast—No quenching step required, unlike traditional sequential dual assays
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Multiplex—Can quantify two cell activities in the same sample
< br>Pierce Gaussia-Firefly Luciferase Dual Assay Kit is a highly sensitive assay that supports simultaneous detection of
Gaussia and red firefly luciferase activities. Gaussia luciferase served as an experimental reporter gene, with constitutively activated red firefly as a normalization control. As shown in the animated video below, this reporter control panel can simultaneously monitor the activity of experimental reporter genes and control luciferase in a single reading assay without the need for two-step addition of substrate reagents or quenching. The assay working solution contains two luciferase substrates and reacts with simultaneous flash-type kinetics. The resulting luminescence signal can be spectrally resolved using filters. In a single sample, researchers can measure the transcriptional activity of regulatory elements, signal transduction pathways, and the effects of activators or inhibitors.
Product Components:Cell lysis buffer, reaction buffer, and substrates Vargulin and D-luciferin
Required:< /b>
Sea Firefly and red firefly luciferase reporters; filter sets range from 425-525nm (for Sea Firefly Luc) and 615- 675nm (for red firefly Luc). Photometer or other instrument capable of monitoring luminescence (such as Thermo Scientific Luminoskan Ascent and Varioskan flash microplate readers); injector required to evaluate more than 24 wells at a time.
Applications:
• Study two regulatory elements simultaneously
• Monitor two signaling pathways simultaneously
• Study multiple targets per screen (e.g. off-target Effect)
Application video:
Gaussia luciferase can produce more energy than firefly and natural Renilla luciferase Brighter bioluminescence signal. The bioluminescent signal (λmax= 470nm) produced by Gaussia luciferase is caused by the oxidation of coelenterazine. This reaction does not require adenosine triphosphate (ATP) or other cofactors. Red firefly luciferase is a mutant form of the Japanese firefly luciferase derived from Genji. This luciferase produces a red-shifted radiant light (λ max = 613 nm) caused by the oxidation of D-luciferin in the presence of ATP. Red firefly andGaussialuciferase were used in dual assays because the light output can be spectrally resolved.
More product data
•Extremely sensitive multiplex luciferase reporter gene assay
•Simultaneous dual emission detection of luciferase reporter gene assay
•Activation of antioxidant response pathways through pesticide chemicalsFor Research Use Only . Not for use in diagnostic procedures.