Difference between revisions of "Team:HKUST-Rice/Design"
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<h1>Why is gel imaging important to synthetic biology? </h1> | <h1>Why is gel imaging important to synthetic biology? </h1> | ||
| − | <p> | + | <p>Since its establishment, HKUST iGEM team has been working in small lab pretty far away from the centralized equipment complex. Every time when we want to document our gel or perform gel extraction, we have to carry our gels, walk through a corridor and up a floor to reach the commercial gel documentation system. Starting from this year though, we no longer have to suffer! We have built our own gel imaging system from affordable and easy to get-to-materials, and would like to share with the iGEM community how they make their own.</p> |
<h2>Results</h2> | <h2>Results</h2> | ||
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<hr class="para"> | <hr class="para"> | ||
<h1> 3D View of Animated DIY Gel Imaging Station</h1> | <h1> 3D View of Animated DIY Gel Imaging Station</h1> | ||
| + | <p>Our current working model 1.0 is good enough for daily in-out documentation purposes, but it is not so convenient for gel extraction – the space between the camera and the transilluminator is too narrow. We are about to build our 2.0 version and we want to introduce a drawer-like feature for the transilluminator. Our design is as below and we will build it pretty soon.</p> | ||
| + | |||
<a href="https://static.igem.org/mediawiki/2015/6/64/Team_HKUST-Rice_2015_3D_View.pdf " download><img class="button" src="https://static.igem.org/mediawiki/2015/a/ab/Team_HKUST-Rice_2015_3Dimage.png" style="width:60%"></a> | <a href="https://static.igem.org/mediawiki/2015/6/64/Team_HKUST-Rice_2015_3D_View.pdf " download><img class="button" src="https://static.igem.org/mediawiki/2015/a/ab/Team_HKUST-Rice_2015_3Dimage.png" style="width:60%"></a> | ||
Revision as of 15:43, 18 September 2015
DIY Gel Imaging Station
Why is gel imaging important to synthetic biology?
Since its establishment, HKUST iGEM team has been working in small lab pretty far away from the centralized equipment complex. Every time when we want to document our gel or perform gel extraction, we have to carry our gels, walk through a corridor and up a floor to reach the commercial gel documentation system. Starting from this year though, we no longer have to suffer! We have built our own gel imaging system from affordable and easy to get-to-materials, and would like to share with the iGEM community how they make their own.
Results
This is a video showing how the Gel Imaging Station actually works:
A photo was taken using this model of DIY Gel imaging station to prove the functionality of the station. This is the 1st photo taken:
The above gel is 0.8% agarose gel pre-stained with Midori Green Gel Advance DNA stain. Each lane is loaded with NEB 1 kb DNA Ladder (N3232, NEB). A green filter is used in taking the photo. As shown on the picture above, each band is clearly shown. Each band is bright enough to be observed.
Materials for DIY Gel imaging Station
The DIY Gel imaging station mainly consist of six parts:
| Item | Source | Cost (HKD) |
| 1: Case | Local hard ware store: Pricerite | $249 |
| 2: Camera (Nikon D3200) | Local electronic store | $3499 |
| 3: Computer with monitor for live viewing of Gel | Laboratory Laptop | - |
| 4: Green UV filter (PMMA) | TaoBao | ~$12 |
| 5: UV trans-illuminator | HKUST division of life science | - |
| 6: Color filters set | Ebay | ~$124 |
| Total | ~$3884 |
In addition to the materials listed above, a stand and clamp is used to hold the camera in place. A heat block is used as a counter weight to keep the set up balance. The inside of the case is wrapped with two layers of aluminium foil to insulate the UV radiation emitted from the UV trans-illuminator when it is being turned on.
A small hole is drilled at the back of the plastic case (not shown on picture above). This hole allows connection between the power cord and the UV trans-illuminator.
For live viewing of gel from computer, DigiCamControl, an open source software is used. This software allows the control (including auto focus and capturing picture) of the camera from the connected computer.
From Prototype to a Working Model
Prototype
Before we built the DIY Gel imaging station, we built a prototype to prove the feasibility of a DIY gel imaging station. Here is how we build this prototype:
- We obtained a plastic bucket and drilled a 5 cm hole on the bottom of it.
- We placed a filter on top of the hole and put a camera on top of the filter.
- An electrophoresed agarose gel stained with Midori Green is placed on top of the UV trans-illuminator
- The entire bucket, with the filter and camera are placed on top of the UV trans-illuminator, and a photo was taken
Working Model
After we confirmed that we could take Gel photo using easy-to-get materials, we proceeded to build a case especially for this purpose. With the case, the imaging station will be more durable. We choose plastic as the material for case. Plastic is resistant to rust and inert to acid and base. Using plastic can prevent rusting and is easy to maintain.
Comparison
3D View of Animated DIY Gel Imaging Station
Our current working model 1.0 is good enough for daily in-out documentation purposes, but it is not so convenient for gel extraction – the space between the camera and the transilluminator is too narrow. We are about to build our 2.0 version and we want to introduce a drawer-like feature for the transilluminator. Our design is as below and we will build it pretty soon.
Click image for a 3D view of animated DIY Gel Imaging Station