Team:KAIST-Korea/FutureWorks
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Luftschloss (Talk | contribs) (→Our Final Solution) |
Luftschloss (Talk | contribs) (→Our Final Goal) |
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Our final goal is to develop the '''universal diagnosis''' kit. But if we express more than one modified antigen receptor, signal from these receptors will be cross-talked. To prevent this crosstalk, we decided to selectively express specific modified receptor. Our first plan was to embed all gene of modified antigen receptors with promoter whose activators are different. But these idea have some problems. First of all, though we don't activate genes, there are expressions of genes. It is not possible to suppress gene 100%. So we planned to use the 'conjugation' of ''Schizosaccharomyces pombe''. So we will make 'antigen-binding' yeasts of different antigens and 'signal-transduction' yeast separately. And the diagnostician conjugate 'antigen-binding' yeast of certain antigen and common 'signal transduction' yeast before the diagnosis. | Our final goal is to develop the '''universal diagnosis''' kit. But if we express more than one modified antigen receptor, signal from these receptors will be cross-talked. To prevent this crosstalk, we decided to selectively express specific modified receptor. Our first plan was to embed all gene of modified antigen receptors with promoter whose activators are different. But these idea have some problems. First of all, though we don't activate genes, there are expressions of genes. It is not possible to suppress gene 100%. So we planned to use the 'conjugation' of ''Schizosaccharomyces pombe''. So we will make 'antigen-binding' yeasts of different antigens and 'signal-transduction' yeast separately. And the diagnostician conjugate 'antigen-binding' yeast of certain antigen and common 'signal transduction' yeast before the diagnosis. | ||
- | == Our Final Goal == | + | == Our Final Goal and Problem of '''Cross-talking''' implementation == |
- | Our final goal is to develop the '''universal diagnosis''' kit for every disease whose antibody is produced. To perform this goal, the yeast should express modified antigen receptor of wanted disease, STAT1 proteins and have GFP gene whose promoter have GAS element. | + | Our final goal is to develop the '''universal diagnosis''' kit for every disease whose antibody is produced. To perform this goal, the yeast should express modified antigen receptor of wanted disease, STAT1 proteins and have GFP gene whose promoter have GAS element. Most easiest way to way to detect existence of antigen is to express every antigen receptor on one yeast cell and integrate these signal into GFP with common STAT1 dimerization pathway. But this way have problems. Though the GFP is expressed, we can't sure which antigen is detected, because any antigen binding can turn on the GFP expression. Therefore, the '''cross-talking''' implementation can't be used for differential diagnosis because it can't eliminate any disease which can turn on the GFP expression. |
== Disadvantage of '''All-in-One''' == | == Disadvantage of '''All-in-One''' == |
Revision as of 10:41, 27 October 2010
Future Works
Our Final Goal and Problem of Cross-talking implementationOur final goal is to develop the universal diagnosis kit for every disease whose antibody is produced. To perform this goal, the yeast should express modified antigen receptor of wanted disease, STAT1 proteins and have GFP gene whose promoter have GAS element. Most easiest way to way to detect existence of antigen is to express every antigen receptor on one yeast cell and integrate these signal into GFP with common STAT1 dimerization pathway. But this way have problems. Though the GFP is expressed, we can't sure which antigen is detected, because any antigen binding can turn on the GFP expression. Therefore, the cross-talking implementation can't be used for differential diagnosis because it can't eliminate any disease which can turn on the GFP expression. Disadvantage of All-in-OneOur Final SolutionLife Cycle of S.pombeHow to implement? |