GMU:Bioelectronics, aesthetics and other interesting things/Trina Ukmata: Difference between revisions
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===PAENIBACILLUS VORTEX=== | ===PAENIBACILLUS VORTEX=== | ||
[[Image:Pv.jpg]] | |||
''Currently waiting for the bacterial strain to get delivered from Jena'' | ''Currently waiting for the bacterial strain to get delivered from Jena'' | ||
Revision as of 21:33, 4 July 2016
A visual representation of bacterial communication systems
STREPTOMYCES
1st step: Streptomyces isolation from pure soil
I. Air dry the soil samples for 3-4 h at 45° to select for Actinomyces spores, considering that many other bacteria die during this pre-treatment
II. Plate the samples either on to Actinomycete Isolation Agar (AIA) or Mannitol Soy Flour Agar (MSA)
Necessities for the recipe of Mannitol Soy Flour Agar
In a 250 mL conical flask mix:
- 2g Agar
- 2g Mannitol
- 2g Soya flour (Holland and Barrett)
- 10 mM CaCl2
- 100 mL Deionised water
III. Incubate at 30°C for 7 days
Optional: Supplementation with cyclohexamide (50 μg/ml) and nystatin (50 μg/ml) to further remove competing bacteria
2nd step: Adding beef extract
The beef extract is added in order to identify the possible communication pathways of Streptomyces when it comes to nutrition.
PAENIBACILLUS VORTEX
Currently waiting for the bacterial strain to get delivered from Jena
- Considering the pattern-forming abilities of Paenibacillus Vortex, I am interested in depicting the possible networks this bacterium can build through quorum sensing, when it comes to the presence of nutrition. Known as one of the most intelligent bacterium species due to its advanced quorum sensing, PV might as well be the proper organism to give clear and differential communication structures.