Team:Washington/Tools Created/New Software

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As synthetic biologists create ever more complex systems, automation and computer-aided design are becoming indispensable. Computational tools will eventually play a central role in the design, construction, and testing of new devices. To meet the emerging needs of the synthetic biology community, the University of Washington 2010 iGEM team has developed a [[Team:Washington/Tools_Created/New_Software#A Standard for Electronic Diagrams|standard for the electronic distribution of diagrams]], as well as two new software tools, [[Team:Washington/Tools_Created/New_Software#Software to Create and Share Standards-Compliant Diagrams|WikiDust]] and [[[[Team:Washington/Tools_Created/New_Software#PartsRobot|PartsRobot]].
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As synthetic biologists create ever more complex systems, automation and computer-aided design are becoming indispensable. Computational tools will eventually play a central role in the design, construction, and testing of new devices. To meet the emerging needs of the synthetic biology community, the University of Washington 2010 iGEM team has developed a [[Team:Washington/Tools_Created/New_Software#A Standard for Electronic Diagrams|standard for the electronic distribution of diagrams]], as well as two new software tools, [[Team:Washington/Tools_Created/New_Software#Software to Create and Share Standards-Compliant Diagrams|WikiDust]] and [[[[Team:Washington/Tools_Created/New_Software#Part Submission Made Easy|PartsRobot]].
<!-- >>>>>>>>>add something about why sharing/dissemination/publication is important. Then Introduce TinkerCell and The Registry. -->
<!-- >>>>>>>>>add something about why sharing/dissemination/publication is important. Then Introduce TinkerCell and The Registry. -->

Revision as of 21:54, 26 October 2010

As synthetic biologists create ever more complex systems, automation and computer-aided design are becoming indispensable. Computational tools will eventually play a central role in the design, construction, and testing of new devices. To meet the emerging needs of the synthetic biology community, the University of Washington 2010 iGEM team has developed a standard for the electronic distribution of diagrams, as well as two new software tools, WikiDust and [[PartsRobot.


Wikidust banner.png


A Standard for Electronic Diagrams

Distribution of standardized diagrams describing DNA construct designs for synthetic biology depends both on the use of a standard set of symbols and on the method of distribution. Therefore the two main requirements for our propoesed standard, BBF RFC XX, are:

  1. The use of SBOLv symbols
  2. The linking of symbols to reference entry pages on the Registry of Standard Biological Parts using http URLs

The result constitutes a diagram which allows the reader to click on portions of the diagram which correspond to SBOLv symbols and read the reference information about that particular portion of the diagram.

Software to Create and Share Standards-Compliant Diagrams

WikiDust is a plugin for TinkerCell, a computer-aided design tool developed here at the [http://www.washington.edu/ University of Washington]. WikiDust can be used to export TinkerCell models to the iGEM wiki or other webpages. Others can then download the models for use in their own larger system, or to explore how the model responds to parameter changes. Our goal in creating WikiDust is to provide an easy way to share models and to encourage iGEM teams and researchers to describe their parts quantitatively. This, in turn, will help others reuse the devices in the future projects.

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Uw sauro linkpanel.png


The first thing WikiDust does is provide a method to associate TinkerCell items with parts on the registry. The same mechanism could also be extended in the future to download additional descriptions, such as reaction kinetics, of the items into TinkerCell. For now though, it demonstrates the feasability of using a [http://www.sbolstandard.org publicly available semantic knowledgebase] to retrieve part information.

Uw sauro mapprompt.png











To associate a link with an item in TinkerCell, right click on it and choose "Add Link". This will bring up a search window with suggested parts. You can search for a phrase, a BioBrick ID, etc. You can also open parts in a browser to read more about them or confirm that you've found the right one.

After the model of your device or system is finished, and you've added all the links you want, you can upload a representation of it to your page. Just choose "Create Imagemap" from the TinkerCell plugins menu, and change any options you want in the window that pops up. WikiDust will automatically handle uploading to the iGEM wiki, or it can just display code for you to copy and paste to another site. Clicking an item in the uploaded diagram will go to the correct part page. In fact, our Tse2/Tsi2 diagram was generated using WikiDust.


To start using WikiDust, you’ll need the main TinkerCell program, as well as Python and Subversion. All of these can be found on the [http://www.tinkercell.com/downloads-2 TinkerCell download page].


Partsrobot banner.png

Part Submission Made Easy

We have also developed a command-line tool to submit multiple parts to the [http://partsregistry.org/Main_Page Registry] at once. This will make it much easier and faster to submit a series of similar parts—promoters of different strengths, variations on a protein, etc. We used it to submit most of our parts.

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Uw sauro submitter mockup.png

Using PartsRobot is simple. Just fill out the template spreadsheet with information about each part. Then, in a command prompt, type:

python partsrobot.py submit yourspreadsheet.csv


The program will log into the Registry and check your parts for syntax errors. Then, after you give the go-ahead, it will submit them.


Get PartsRobot from the [http://sourceforge.net/p/partsrobot/home/ SourceForge page].

New Vectors       Tools Used