Difference between revisions of "Krupakar Dhinakaran"
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The first diagram is the immuno-bacteria. Following it is the way it is used to clean water that has water borne-diseases and produce drinkable water. | The first diagram is the immuno-bacteria. Following it is the way it is used to clean water that has water borne-diseases and produce drinkable water. | ||
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− | [[File:2.jpg]] | + | |
− | [[File:1.jpg]] | + | [[File:2.jpg|Immuno bacteria]] |
+ | [[File:1.jpg|Simple Procedure]] | ||
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'''16th May 09''' | '''16th May 09''' | ||
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An interesting article:Bacteria with wires[[http://www.newscientist.com/article/dn9526-bacteria-made-to-sprout-conducting-nanowires.html]]. | An interesting article:Bacteria with wires[[http://www.newscientist.com/article/dn9526-bacteria-made-to-sprout-conducting-nanowires.html]]. | ||
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+ | Another interesting idea that I came across- makes use of the colour of bacteria to create high-definition 2-d surfaces. [[http://www.nature.com/nature/journal/v438/n7067/abs/nature04405.html]] | ||
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+ | '''22nd MAY''' | ||
+ | Sound and Bacteria: | ||
+ | Interesting article that shows us something we didn't know was possible.[[http://www.engadget.com/2007/01/27/bacterial-orchestra-creates-living-cellular-sound/]] | ||
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+ | |||
+ | '''27th MAY''' | ||
+ | Finally, to understand what all the symbols mean, i found a catalogue that explains the DNA parts that we have to work with. This will allow us to understand what other igem groups have done in previous competitions. | ||
+ | [[http://partsregistry.org/Catalog]] | ||
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+ | '''4th June 2009''' | ||
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+ | Parts that may work together: | ||
+ | |||
+ | 1)Wintergreen Odor Producer | ||
+ | 1.Salicylic Acid Generator: | ||
+ | Source from cell metabolite: BBa_R0011, | ||
+ | Odor Precursor Generator: BBA_J45319 | ||
+ | or | ||
+ | BBa_J45320 | ||
+ | 2.Odor Generator: | ||
+ | BBa_J45120: Catalysis of conversion of salicylic acid to methyl salicylate. | ||
+ | |||
+ | 2)AHL detector and GFP output | ||
+ | 1.IPTG | ||
+ | 2.Inducible AHL, CI generator(with CI promotor): BBa_I722005 | ||
+ | 3.AHL Reciever+GFP: BBa_K137018 |
Latest revision as of 09:17, 4 June 2009
Name: Krupakar Dhinakaran
Institution: Srishti, Bangalore
15th May 09
We created conceptual bacteria models.
The first diagram is the immuno-bacteria. Following it is the way it is used to clean water that has water borne-diseases and produce drinkable water.
16th May 09
As an introduction to all our efforts: Mit and what we are doing[[1]]
Something done: Bactoblood[[2]]
I am beginning to think about electricity conducting bacteria. There could several applications of these modified bacteria. I think starting from simply producing electricity, something that is been studied now, we could eventually create a micro-processor that is living and can adapt to meet system requirements. It would also power itself and make it independent of external power sources. As a third advantage, you could provide the bacteria the garbage in your house/environment.
An interesting article:Bacteria with wires[[3]].
Another interesting idea that I came across- makes use of the colour of bacteria to create high-definition 2-d surfaces. [[4]]
22nd MAY
Sound and Bacteria:
Interesting article that shows us something we didn't know was possible.[[5]]
27th MAY
Finally, to understand what all the symbols mean, i found a catalogue that explains the DNA parts that we have to work with. This will allow us to understand what other igem groups have done in previous competitions.
[[6]]
4th June 2009
Parts that may work together:
1)Wintergreen Odor Producer
1.Salicylic Acid Generator: Source from cell metabolite: BBa_R0011, Odor Precursor Generator: BBA_J45319 or BBa_J45320 2.Odor Generator: BBa_J45120: Catalysis of conversion of salicylic acid to methyl salicylate.
2)AHL detector and GFP output
1.IPTG 2.Inducible AHL, CI generator(with CI promotor): BBa_I722005 3.AHL Reciever+GFP: BBa_K137018