Team:Wageningen UR/Project/Applications
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Say, there exists a particular gene A, which might interact with other genes B, C & D, but there is no evidence for this. To get an idea about this interactive behaviour, gene A can be knocked out. Now that gene A is knocked-out it is desirable to find out what happened with genes B, C & D. One way is looking at the transcriptional level of those genes, to see whether there are differences compared to the normal situation. Another is measuring the concentrations of the proteins that are expressed by gene B, C & D. By looking at those data, conclusions can be drawn. For example, gene B seems to be up regulated, gene C seems to be down regulated and nothing happened to gene D. Now it seems that gene A interacts with both genes B & C, but there is still no hard evidence for that, as there is a dozen of other factors that could have influenced the expression of genes B & C. Think of growth conditions, growth phase, other gene interactions, etc. | Say, there exists a particular gene A, which might interact with other genes B, C & D, but there is no evidence for this. To get an idea about this interactive behaviour, gene A can be knocked out. Now that gene A is knocked-out it is desirable to find out what happened with genes B, C & D. One way is looking at the transcriptional level of those genes, to see whether there are differences compared to the normal situation. Another is measuring the concentrations of the proteins that are expressed by gene B, C & D. By looking at those data, conclusions can be drawn. For example, gene B seems to be up regulated, gene C seems to be down regulated and nothing happened to gene D. Now it seems that gene A interacts with both genes B & C, but there is still no hard evidence for that, as there is a dozen of other factors that could have influenced the expression of genes B & C. Think of growth conditions, growth phase, other gene interactions, etc. | ||
- | Using the oscillating system, it is possible to have gene A oscillating and at the same time look at what happens to the other genes B, C & D through time. If it appears that gene B shows changes in its expression level pattern or protein concentration pattern | + | Using the oscillating system, it is possible to have gene A oscillating and at the same time look at what happens to the other genes B, C & D through time. If it appears that gene B shows changes in its expression level pattern or protein concentration pattern and genes C & D do not show a difference compared to the normal situation whilst gene A is oscillating, it means that there is hard evidence for the fact that gene A is interacting with gene B and not with gene C & D. |
As there are some genes that cannot be knocked out, because without it the organism cannot survive, the use of knock-outs is limited. The oscillating system can get the expression level of crucial gene E very low at certain time points while it makes up for the loss at other time points where it is over-expressed. This means that, by looking at changing expression patterns of other genes over time, it is possible to get interactional information for gene E that until now was very hard to study. | As there are some genes that cannot be knocked out, because without it the organism cannot survive, the use of knock-outs is limited. The oscillating system can get the expression level of crucial gene E very low at certain time points while it makes up for the loss at other time points where it is over-expressed. This means that, by looking at changing expression patterns of other genes over time, it is possible to get interactional information for gene E that until now was very hard to study. |
Revision as of 01:20, 22 September 2011