Team:EPF Lausanne/PolicyPractice

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POLICY & PRACTICE


While designing and making our new microfluidic chips, the team realized that it would be a great addition to the registry to have a catalog of Microfluidic Parts similar to the existing DNA Parts Catalog. The chips also have basic, intermediate and composite structures that can be combined and reused in a way resembling building blocks.

Creating a database of these parts would contribute to the already enormous library of DNA parts, and would moreover give a push forward to all the teams contemplating the integration of microfluidics in their projects.

As such a structure isn’t available, we created one similar in structure to the existing one, so as to easily integrate it in the system, maintaining a certain uniformity, which would make it natural after having had contact with the existing catalogs (biobricks, plasmid backbones, chassis...). We kept in mind that the registry will develop itself, just as chip designs will integrate new parts, so we designed a naming system that can grow both horizontally (adding types of parts) and vertically (adding sub-parts).

Enlarging project possibilities

iGEM projects are evolving into much more complex and ‘important innovative/crazy/risky’ questions, more organisms types are used, different technologies (such as microfluidic chips, computers, …).

It is important to say, related to our safety work (link here), that the use of microfluidic chips decreases the risk with genetically modified cells, as these are contained in a stable & in a way, isolated environment. This is useful for the future development of iGEM, because as projects become more complex and innovative/crazy/risky and start contemplating more complex questions, more organisms are used, and the usage of microfluidic chips will certainly develop the use of level 2 organisms, which are interesting in a different way that level 1 orgs. This will bring a surge of new ideas, which were difficult to contemplate because of the safety principles, because a wide range of currently unsafe experiences/organisms will become [safe enough to use]

Structure of the Microfluidic Parts Registry

To maintain a uniform structure of reusable parts throughout the whole registry, the system was designed in the following way, where each white box represents each type of reusable microfluidic brick, and the red arrows represent links from one to the other.

As such a structure needs a different submission page than the ones already existing, we designed it. You can find a sample submission page for microfluidic parts here. Sample pages of some of the parts were also made: Microfluidic Chip Design Page, ???.

The Microfluidic Chip Design pages correspond to DNA BioBricks pages. Therefore, they include:

  • A short description of the chip, its intended purpose
  • The design file of the chip (for that, the submission of gds, dxf, and others have to be possible on the iGEM server)
  • An information page with the owner, the part type, a list of components, the intended material...
  • Links to the other parts related to this one (protocols used on this chip)

The Mask & Wafer Protocol (MWP) pages consist of the detailed procedures of mask & wafer fabrication. They include a list of instruments and materials, and the exact procedure, organized as a series of bullet points.

The Chip Fabrication Protocol (CFP) pages are similar to the Mask & Wafer Protocol pages, as they are highly detailed and specific.

These pages are also linked to one another when used for the same chip, as can be seen in the diagram above. That creates a network of compatible protocols and procedures, very useful for other iGEM teams.

The Usage Protocol & Software pages consist of the protocols for the experiments and chip setup procedures. These procedures can be less detailed and specific than those in the MWP and CFP pages, as they are more easily modified. They can be videos of the setup procedure. As microfluidic users sometimes create software to control their experiment automatically, this would be included in this page, for other teams to use.

Naming the parts

The microfluidic parts would be named similarly to the DNA BioBricks:

With this naming structure, a fast identification of the main type of chip is possible.

The chips' units are not separated in different parts, as it is important to see the construction around each functional unit. However, as these units had to be found easily within the database, a selection of components was added to the part submission page, which would appear in the information page.

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