Team:Carnegie Mellon/Met-Overview

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Concept

The idea for the basis of promoter characterization is that our FAP (known as Ben) is a conditionally fluorescent protein. Similarly, our construct, known as Spinach is also conditionally fluorescent, but the two fluorescent constructs are not promiscuous. By placing the promoter of interest immediately upstream of Spinach, we get a fluorescence signal from the mRNA that is transcribed. To record protein fluoresence signals, we placed a RBS 14 base pairs downstream of the Spinach sequence to avoid a steric clash between the Spinach supramolecular structure and the ribosome. After the RBS, we cloned in our FAP so we can record protein levels over time as well as the RNA levels. This coupled system has several advantages over a traditional system, which only measures protein levels. This allows us to characterize more properties of any given promoter and address unpredicted behavior. The plasmid map is shown here.


A simplified version of our construct is shown here.

Fluorescence Readings

In our experiments, fluorescence intensities were measured with a Tecan SafireII at their maximum excitation and emission peaks with a 10nm bandwidth and optimal gain (100 for Spinach and 255 for the FAP). FAP Ex/Em=635/660 and Spinach Ex/Em=469/501.

L5 FAP (MG) Excitation and Emission Spectra


Spinach (DFHBI) Excitation and Emission Spectra


Sequences

The Spinach sequence we used is as follows1:
GCCCGGATAGCTCAGTCGGTAGAGCAGCGGCCGAGTAATTTACGTCGACGACGCAACCGAATGAAATGGTGAAG
GACGGGTCCAGGTGTGGCTGCTTCGGCAGTGCAGCTTGTTGAGTAGAGTGTGAGCTCCGTAACTGGTCGCGTCG
ACGTCGATGGTTGCGGCCGCGGGTCCAGGGTTCAAGTCCCTGTTCGGGCGCCA

The L5 sequence is as follows2:
QAVVTQEPSVTVSPGGTVILTCGSSTGACTSGHYANWFQQKPGQAPRALIFETDKKYSWTPGRFSGSLLGAKAA
LTISDAQPEDEAEYYCSLSDVDGYLFGGGTQLTVLS



1RNA Mimics of Green Fluorescent Protein. Jeremy S. Paige, Karen Y. Wu, and Samie R. Jaffrey, et al. Science 29 July 2011: 333 (6042), 642-646. [DOI:10.1126/science.1207339]
2Shruti S, Urban-Ciecko J, Fitzpatrick JA, Brenner R, Bruchez MP, et al. (2012) The Brain-Specific Beta4 Subunit Downregulates BK Channel Cell Surface Expression. PLoS ONE 7(3): e33429. doi:10.1371/journal.pone.0033429

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