GMU:Synthetic Biology/Bacteria Game

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Bacteria Game - How to

Prepare the agar with nutrient powder and fill it up with water, following the enclosed protocols. Boil the media in your microwave until the mixture turns clear and the seems to be completely dissolved. Let it cool down to approx. 50°C. Plates for the challenge have to be poured with 35 ml. The mixture can be supplied with antibiotics and inducers. Feel free to establish your own procedures. It turned out to be most precisely to inoculate by carefully pipetting 3 μl of liquid culture into the solidified agar. Nevertheless, swarm plates can also be inoculated by transferring a bacteria colony using a tooth-pick which can found in the game kit. Swarm plates are ordinarily incubated at room temperature.

figure: swarming bacteria (Adlung, 2010)


E. coli cells with a functional chemotactic system swarm (= “swim”) on soft agar plates. The field of chemotaxis is perspicuously defined. Studies deal with migration depending on chemicals. To be more precise: cells sense the presence of diverse substances in their environment and respond to gradients of chemical attractants or repellents by moving. The bacteria spread radially due to the attractant gradients formed by metabolizing the different nutrients in the agar. Swimming of the cells can be described as a biased random walk in a spatial gradient of media. The microbe runs in favorable directions towards high concentrations of attractant (i. e. nutrient) and away from repellents (i. e. antibiotic). Straight runs are only interrupted by short tumbles where the cell reorients randomly for the next run. The probability for tumbling increases with higher repellent concentrations. Likewise the tumbling frequency rises during runs down attractant gradients (see figure on the right). As a result, the cell almost swims along curly trajectories.

Limitations

  • “culturing” / “breeding” meaning selection of best swarmers
    • evolutionary effect on molecular level (i. e. signal network properties)
  • training effect has to be experimentally determined, since it is still unknown here


“I am as free as nature first made man,

Ere the base laws of servitude began,

When wild in woods the noble savage ran.”[1]

The Migration of Destiny (more than a bacteria game)

Concept

Charles Darwin developed his work "The origin of species" on a long journey. The sight of thitherto unknown landscapes and their respective flora and fauna enabled him to develop a general and formal concept of formation and development of the same – the evolutionary follow-up of Nature. We have developed a game play that enables us to observe bacteria on their journey through different landscapes. Our landscapes are made from agar and small samples of bacteria can be put into them by means of a pipette. There, one can observe in detail how landscapes may influence the behaviour and development of organisms (manifold landscape -> biodiversity?).

In our game, we are not only creators of the lands and territories, but we are also creators of species that live there. In our game, synthetically optimized organisms meet their natural ancestors. Players may observe throughout several generations how this encounter develops. The appropriate selection of barriers, bridges and fortifications makes it possible to individually influence the events. On the basis of their respective colours, one can recognize which bacteria live longest and which bacteria strains move fastest. All the time, it is up to the players if they prefer to build pretty landscapes or raise lissom bacteria which compete against each other in special arenas.

petri dishes: procaryotic civilization?

Setting

A culture dish is the habitat and arena for the bacteria, consisting of coloured nutritious agar on the one hand, and transparent liquid agar on the other hand. In the liquid agar (the “oceans”), the bacteria move quickly; in the viscous food (the “continents”) they act more statically. Spatially confined from these areas, there are “fortresses” with gates and bridges. By means of a pipette and samples from various bacteria strains, this miniature world may come alive.
Some of the bacteria are wild (wild type E. coli), others rather not - in fact, they are even very disciplined and (mostly) do what they are programmed to do.
The synthetically cultivated bacteria are initially kept in fortresses (forts), separated from the surrounding landscape. Within these fortresses, these bacteria are - behind safety glass and fences - optimized as a predator-and-prey system - potent and highly efficient agents. Everything unimportant is kept away from them, their world only consists of hunting and eating to survive. The predator starves to death if there is no prey.
Around the fortress extend varied landscapes which are inhabited by “indigenous” wild bacteria. Some of those can be discriminated by their pigment colors.
Normally, the Wild and the Civilized live on separate continents. We – the creators of this world - may now open the gates of the fortress / the borders of the continents.
What will happen when both meet?
Will the hunters have advantages compared with their peaceful conspecifics? What will happen when prey meets peaceful bacteria. Who will consolidate their future? How colorful will this future be?
By transferring the bacteria to new culture dishes with new fortresses and territories again and again, the further development of the bacteria may be modified and diversified.

Further planning

Design of a “game set” with a petri dish, samples from wild type bacteria (non-glowing E. coli and glowing Photobacterium spec.), tooth picks, small modular bricks to build fortresses in the dish, a construction manual for the fortresses, a small quantity of agar, nutrients to mix with the agar and a set with three dishes for people who want to inoculate their bacteria for training purposes.
Competition between different wild type strains could be placed everywhere since there is no S1 safety condition required for that. Players could meet each other wherever they want. Swarming could be even more challenging at different temperatures (swarm matches: home and away, evolved bacteria at the edge of a swarm ring will be collected for next match - “never change a winning stream”). One could also think about a kind of championship for synthetic bacteria in a special “arena” (located in an S1 Lab).