LightCannon
This page is a work-in-progress for how to build a "light cannon" for use in bacterial photography.
Please help make it better!
Background
As part of their research and the 2004 Synthetic Biology and 2005 iGEM competitions, the good folks from UT and UCSF made the world's first camera that uses bacteria to take photographs. Let's call such pictures coliroids for now. Their early work was so cool that they published it as a paper in Nature. In order to take your own coliroids you need two things. First, the genetically engineering bacteria that respond to light. Second, a camera that can expose your bacteria to light. For unknown reasons, let's call the camera a Light Cannon. You can learn about the bacteria (where?). This page is about how to build Light Cannons!
Example Coliroids
In case you want to see if all the trouble will be worth it, check out these here coliroids. Build your own system and then add your pictures here!
Overview of Light Cannon
Materials List
Instructions for Buildling
Debugging
References
Scott H. Biram
Be sure to check out Scott H. Biram of Bloodshot Records. This page might not exist had it not been for Mr. Biram.
Anselm- The details on the filter are:
From Edmunds Optics
description: FILTER INT 632NM 50.8MM SQ
Catalog number: NT43-185
details on this website
http://www.edmundoptics.com/onlinecatalog/DisplayProduct.cfm?productid=1903
> >Hey Jeff, > > > >could you tell me the details about the bandpass filter you use? > >HWFM and CWL or related. (or even just supplier and #) > >Just want to make sure I'll hit the same optimum window with some that > >I'm buying. > > > >Thanks alot! > > > >-Anselm
our thermometer hole is ~1.5 inches.
At 03:53 PM 12/15/2005, you wrote:
One last annoying question. the hole in the top of the incubator, how
big is it?
I'm looking at a few different ones and can't decide if the standard
thermometer port is
large enough.
thanks for answering all these questions!
-anselm
we've been using a 100W mercury vapor lamp, taken from a fluorescence microscope. with this light source we use a red bandpass filter (see the attached figure), that allows 660nm light to pass to the exclusion of far red light. we then place the image which is on a 35mm slide (the kind you would use for an old-style slide projector) below the filter, and focus the light through a double gauss lens. the whole apparatus sits outside of a 37C incubator, and the light image passes in.
one really nice feature that we have is an actuator to which 35mm slide is connected, which allows us to have pretty fine control over the focus.
we've also succesfully been using sodium "grow" lamps, which we don't filter usually.
as far as the agar preparation, it's still just 2-4% seaplaque agarose in LB+S-gal and Ferric Ammonium Citrate. We autoclave the media with everything in it before pouring, to get the solutes completely dissolved, then we keep it at 42 degrees, add the cells, mix and pour immediately.
we've actually thought about increasing signal to noise. one idea we had was to put a repressor of LacZ under the OmpF promoter. this will bring down total signal most likely but could also increase signal to noise. i'm sure there are lots of other good ways to do it as well...including mutating Cph8 and screening. good luck, let me know how it goes.
Jeff
At 09:11 PM 11/2/2005, you wrote:
Chris said that you guys have been using a smaller setup to develop
your bacterial photos, could you tell me what kind of light sources and filters
you've been using? I'd like to start taking some myself to see if I
can improve
the signal/noise ratio by modifying the construct. Also, if you've changed the
agar preparation at all, I'd love to hear what's been optimized. All
details are great
as I'd like to just order the things needed.
By the by, I'll finally be starting some tests on a possible blue-light sensor soon.
thanks a lot! kick ass regarding the paper! -Anselm