Team:KAIST-Korea/Notebook/Memo/Idea
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There are common system call photosynthesis. We can use this idea to make new bacteria to imitate this system. And make this as a paint or we can extract only the chloroplast part alone or using cyanobacteria to make some kind of battery. We can use cyanobacteria because it literally do photosynthesis. And in case of stromatolite we can use it as building structure. problem We have to make e.coli to be as big as chloroplast. And we have to make it to be paint. There is problem when there is no sun or in bad wether. When it rains it could mess up sewage system.<br><br> | There are common system call photosynthesis. We can use this idea to make new bacteria to imitate this system. And make this as a paint or we can extract only the chloroplast part alone or using cyanobacteria to make some kind of battery. We can use cyanobacteria because it literally do photosynthesis. And in case of stromatolite we can use it as building structure. problem We have to make e.coli to be as big as chloroplast. And we have to make it to be paint. There is problem when there is no sun or in bad wether. When it rains it could mess up sewage system.<br><br> | ||
<span style=font-size:15px> <b> NAND gate with E.coli </b> </span><br> | <span style=font-size:15px> <b> NAND gate with E.coli </b> </span><br> | ||
- | + | We can use 0/1 logic with some kind of chemicals as input and output. And we can make middle phase chemical not to mixed up with input and output chemical. We are thinking of lactose tryptophan as input. Since Stanford has basic skills on this we can use this. If we make this, we can make a flip flop which is basic component of memory system. problem If we use chemical as input and output we have to control chemical level. We have to make a system threshold to differentiate 0 or 1.<br><br> | |
<span style=font-size:15px> <b> Yeastgrapher </b> </span><br> | <span style=font-size:15px> <b> Yeastgrapher </b> </span><br> | ||
This idea is making a photographer with yeast. We are making a photographer with RGB cone cell and fluorescence. There are already exists a study about cone cell receptors. We are thinking that we make RGB ratio as 40:20:1 like human retina. Film would be yeast. Therefore it can grow infinitely. problem film is not copiable. We have to be careful not to get light on film after taking a picture. It is not a matter of sensing but processing the images on brain. Therefore we are not sure that it would work.<br><br> | This idea is making a photographer with yeast. We are making a photographer with RGB cone cell and fluorescence. There are already exists a study about cone cell receptors. We are thinking that we make RGB ratio as 40:20:1 like human retina. Film would be yeast. Therefore it can grow infinitely. problem film is not copiable. We have to be careful not to get light on film after taking a picture. It is not a matter of sensing but processing the images on brain. Therefore we are not sure that it would work.<br><br> |
Revision as of 06:03, 8 August 2010
Idea
Alcanivorax Borkumensis
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