Team:UIUC-Illinois/Project/Design

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Revision as of 04:27, 29 September 2012

In designing our project we based our quantitative tests on fluorescence measured by a plate fluorescence reader. Our constructs were created in ways that best suit providing evidence for our hypothesis of the PUF-PIN fusion protein showing endonuclease activity. Generally, our results were collected from quantifying two main PUF-PIN fusion protein types, a wild type and a mutant type, in different conditions. These two fusion proteins had recognition sites that differed by one base pair.

Click on the list to the left to read about each of our constructs and why we decided to do them.

The blue symbol labeled PUF-PIN represents the gene that is expressed to produce a wild-type PUF fused to a PIN endonuclease. The comparison of this construct's results to the mutant PUF-PIN (labeled *PUF-PIN) our main source of experimental data.

The light blue symbol labeled *PUF-PIN represents the gene that is expressed to produce a mutant-type PUF fused to a PIN endonuclease. The variation between our two constructs is only a single base pair difference between the 8-base pair PUF-PIN and *PUF-PIN RNA recognition sites. Otherwise, their endonuclease function is theoretically unaffected by the different recognition subunits.

Fig. 1

Fig. 2

Fig. 1 and 2 include the resulting PUF-PIN and *PUF-PIN proteins interacting with their respective binding sites. The wild type binding site is represented by the orange oval. The mutant type binding site is represented by the light orange square. The yellow rounded rectangle represents the YFP reporter gene. As the PUF-PIN fusion proteins, wild and mutant, interact with their respective sites, further interactions occur due to the fused endonuclease.

Fig. 3

Fig. 4

Fig. 3 and 4 depict the aformentioned endonuclease activity due to the endonuclease, PIN, fused to both PUF and *PUF. After the PUF-PIN complexes recognize and bind to their encoded sites, the endonuclease begins to cut the attatched RNA strand.

Since our YFP reporter gene is located downstream of the recognized PUF-PIN cut site, we would be able to quantify changes in expression and fluorescence with and without the introduction of our specific RNA binding endonuclease activity. We hypothesized that in measuring the fluorescence levels, we would have evidence supporting PUF-PIN and *PUF-PIN as RNA scissors with the ability to silence genes.