Difference between revisions of "Team:SJTU-BioX-Shanghai/Description"
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<p>In order to find a reporter for our project, we found chromoprotein. Chromoprotein was a kind of protein which contains the structure of pigment so it can show different color under light. We choose this reporter for two reasons, easy to detect and can be mixed into a third color. Chromoprotein can be seen by naked eyes make it much more convenient than fluoresce proteins which needs specific excitation light. Also, with the same feature as pigment, mixing different chromoprotein can form a new color under the color mixing theory.</p> | <p>In order to find a reporter for our project, we found chromoprotein. Chromoprotein was a kind of protein which contains the structure of pigment so it can show different color under light. We choose this reporter for two reasons, easy to detect and can be mixed into a third color. Chromoprotein can be seen by naked eyes make it much more convenient than fluoresce proteins which needs specific excitation light. Also, with the same feature as pigment, mixing different chromoprotein can form a new color under the color mixing theory.</p> | ||
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<div class="my-title h5-my-responsive" id="section4">Small CAT</div> | <div class="my-title h5-my-responsive" id="section4">Small CAT</div> | ||
Revision as of 12:24, 1 November 2017
DescriptionSTAR (Small Transcriptional-Activating RNA) is a new technology that can be used for implementing RNA logic in bacterial cells. STAR consist of a Target and an Antisense. The hairpin structure in target acts like terminator or attenuator in the gene circuit. Target is often inserted upstream the open reading frame to block the expression. Antisense is a short RNA which is strictly complementary strand of part of the target. Antisense strongly combine with target, change the hairpin structure and make the protein downstream expressed.
STAR is an effective RNA logic technology. It acts like a bridge to connect sensors like some environment sensitive promoters and reporters like GFP and RFP. Considering this strong logical tool, we planning to use STAR to construct a multi-factor sensor. STAR is a series of RNA pairs (antisense and target) so we choose the best one(STAR1) with highest regulate rate, and design a new STAR(STAR3) in the basis of another STAR(STAR2). Finally, we integrate STAR1, STAR3, sensors and reporters to create the multi-factor sensor.
In order to find a reporter for our project, we found chromoprotein. Chromoprotein was a kind of protein which contains the structure of pigment so it can show different color under light. We choose this reporter for two reasons, easy to detect and can be mixed into a third color. Chromoprotein can be seen by naked eyes make it much more convenient than fluoresce proteins which needs specific excitation light. Also, with the same feature as pigment, mixing different chromoprotein can form a new color under the color mixing theory.
Chromoprotein has been wildly used these years, but we haven't found an effective & convenient way to detect the concentration it. So, we develop a new way to detect the concentration by taking pictures and analyze the color. This system is called small Chromoprotein Analyze Toolbox, also called smallCAT, can also detect the mixed color by generating a color chart or colorimetric card. A box is used for controlling environment influence and the analyze program can be install as an APP or run in MATLAB.
