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| <li> Primers need not be 5´ phosphorylated but must be purified either by fast polynucleotide liquid chromatography (FPLC) or by polyacrylamide gel electrophoresis (PAGE). Failure to purify the primers results in a significant decrease in mutation efficiency.</li> | | <li> Primers need not be 5´ phosphorylated but must be purified either by fast polynucleotide liquid chromatography (FPLC) or by polyacrylamide gel electrophoresis (PAGE). Failure to purify the primers results in a significant decrease in mutation efficiency.</li> |
| <li> It is important to keep primer concentration in excess. Stratagene suggests varying the amount of template while keeping the concentration of the primer constantly in excess.</li></ul></div> | | <li> It is important to keep primer concentration in excess. Stratagene suggests varying the amount of template while keeping the concentration of the primer constantly in excess.</li></ul></div> |
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- | == '''S<sup>2</sup>MT Tutorial - First Version''' ==
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- | <div align="justify"><ul>
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- | [[File:Img1.png | center]]
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- | (S<sup>2</sup>MT) GUI parts:
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- | <li>1. URL/DNA Sequence textbox: This is the main input.</li>
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- | <li>2. Standard selection: We can select the desired standard and the program will check the compatibility with it.</li>
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- | <li>3. Process button: After giving the inputs, analyze the sequence.</li>
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- | <li>4. Primer textbox: Here we get the output.</li>
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- | <li>5. Notification area: The script's feedback.
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- | </li></ul></div>
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- | <div align="justify"><ul>
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- | Some points to take in consideration:
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- | <li>The primer's starting positions will appear in the MATLAB's console.
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- | <li>The sequence box can either get an URL from the Parts Registry pointing to a specific Part or a DNA sequence (the textbox is case insensitive).</li>
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- | <li>Some PartsRegistry Devices does not have it corresponding DNA Sequence on it.</li>
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- | <li>Be sure that the DNA Sequence you put in the box does not contain any other letter than 'a', 't', 'g' and 'c'.</li>
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- | <li>Some sequence's incompatibility can't be fixed.
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- | </li></ul></div>
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- | <div align="justify"><ul>
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- | [[File:Fix.png |center]]
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- | (S<sup>2</sup>MT) succesfully fixing the incompatibility of the given DNA sequence with the standard 21.
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- | To download the script go to: https://github.com/igemsoftware/UTP_Software_2012 and get all three files.
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- | Files descriptions:
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- | <li>S2MT.m: Does all the sequence analysis process.</li>
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- | <li>S2MT_G.m: Code for the grafical interface. (Run this)</li>
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- | <li>S2MT_G.fig: Binary file for the grafical interface.</li>
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- | Note that (S<sup>2</sup>MT) relies on the Bioinformatics Toolbox of MATLAB (both supplied by iGEM) to make its computations, so you need the toolbox to be able to run the script.
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- | </ul></div>
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- | You can download this tutorial here: https://static.igem.org/mediawiki/2012/2/29/S2MT_Tutorial.pdf
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| == '''S<sup>2</sup>MT_championship Tutorial ''' == | | == '''S<sup>2</sup>MT_championship Tutorial ''' == |
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Project Details
What is the S2MT tool?
The SynBio Sequence Mutation Tool (S2MT) it's a MATLAB implementation software that helps teams to start their projects once they have selected some possible BioBricks or DNA sequences to work with.
This tool was developed in MATLAB basically for the reason that, what new iGEM teams require is a flexible environment capable of not only running the algorithm that we develop, but also a place where they can continue working their ideas, examine more in detail their sequences and even continue the development of our tool.
So we thing that our system will also knock down the barriers that exist between computation and biology and give students the tools required to do better simulations, and save a lot of valuable time!
Behind the code there are three simple steps in which the program consists:
- First, the user introduces the DNA sequence or link to the BioBrick in the part registry. And the program scans the desired sequence to look for the restriction sites within the assembly standards that are used in the iGEM competition.
- Then the user is prompt to specify in case of incompatibility with the standards, which RFC he would like to fix. Once selected, the program designs the primers required for the Site directed mutagenesis procedure that will allow the sequence to be compatible with the standard.
- And last, if the program successfully created the required primer, it will print the sequence, giving the user the start position where that primer should be applied.
In some cases, it’s impossible to fix some sequences, because based on the protocol, the output primer may not comply with the steps that are listed in the “Protocol Followed to design the primers” section. Meaning that another standard should be selected.
Flow diagram for the S2MT
Protocol Followed to design the primers:[http://web.physics.ucsb.edu/~deborah/pro/pro_pdf/Stratagene%20QuikChange.pdf]
S2MT_championship Tutorial
Next S2MT Version
After finishing the first version, we had in mind several things to implement to the next:
- Our next version will for sure incorporate a "ab1" chromatogram file reader, because right now we are relying on phred files, which eventhoug phred scores are pretty accurate, not every sequencing company provide those.
Some bugs are still to be fixed, and some performance improvement can also be a part of the next version.
- Our Second idea (still under development) is about adding a whole new tool to our software, and thats what we call BioSinergia (spanish for "BioSinergy"), which will be like a smart database of metabolic rutes that is going to help teams and researchers to work and study the production of bioenergy through synthetic biology. This project will make use of our S2MT tool to make it easy for new iGEM teams to work with biofuels in their projects.
References
[1]. Stratagene. QuikChange™ Site-Directed Mutagenesis Kit. Catalog #200518. Revision #108005h. Available in: http://web.physics.ucsb.edu/~deborah/pro/pro_pdf/Stratagene%20QuikChange.pdf.
[2]. Prather:Gibson CBA. Available in: http://openwetware.org/wiki/Prather:Gibson_CBA
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