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Article Abstract
Multiplex hextuple luciferase assaying allows monitoring the activity of five experimental pathways against one control at the same time. To perform multiplex hextuple luciferase assaying, six orthogonal luciferase reporter units are needed of which five are pathway-specific and one acts as a control for normalization. To ensure stoichiometric delivery of all six luciferase reporters in every transfected cell, synthetic assembly DNA cloning is used to stitch together all six luciferase reporter units into a single vector. Here, we provide a detailed three-step synthetic assembly DNA protocol to generate multiplex hextuple luciferase reporter plasmids for any five cellular signaling pathways of interest, against a control normalization pathway. A first protocol is provided on how to generate plasmids that contain novel transcription factor-binding motifs for specific transcription factors. A second protocol details on how to couple these novel transcription factor-binding motifs to one of five orthogonal luciferases to obtain specific luciferase reporters for cellular signaling pathways acting upstream of those transcription factor-binding motifs. Finally, a third protocol provides details on how to assemble orthogonal luciferase reporters for five cellular signaling pathways acting upstream of five unique transcription factor-binding motifs together with a control constitutive pathway luciferase reporter that will be used for normalization to obtain a final multiplex hextuple luciferase vector.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10155188 | PMC |
| http://dx.doi.org/10.1007/978-1-0716-2453-1_32 | DOI Listing |
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Multiplex Hextuple Luciferase Assaying.
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Verna and Marrs McLean Department of Biochemistry and Molecular Biology, Baylor College of Medicine, Houston, TX, USA.
We recently expanded the commonly used dual luciferase assaying method toward multiplex hextuple luciferase assaying, allowing monitoring the activity of five experimental pathways against one control at the same time. In doing so, while our expanded assay utilizes a total of six orthogonal luciferases instead of two, this assay, conveniently, still utilizes the well-established reagents and principles of the widely used dual luciferase assay. Three quenchable D-luciferin-consuming luciferases are measured after addition of D-Luciferin substrate, followed by quenching of their bioluminescence (BL) and the measurement of three coelenterazine (CTZ)-consuming luciferases after addition of CTZ substrate, all in the same vessel.
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Verna and Marrs McLean Department of Biochemistry and Molecular Biology, Baylor College of Medicine, Houston, TX, USA.
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Sensitive simultaneous assessment of multiple signaling pathways within the same cells requires orthogonal reporters that can assay over large dynamic ranges. Luciferases are such genetically encoded candidates due to their sensitivity, versatility, and cost-effectiveness. We expand luciferase multiplexing in post-lysis endpoint luciferase assays from two to six.
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