Knocking Out Genes with dsRNA Inhibition in Eukaryotic Organisms

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The discussion centers on the technique of knocking out genes in organisms using double-stranded RNA (dsRNA). It explains that while eukaryotic organisms typically contain only single-stranded RNA (ssRNA), some viruses possess dsRNA. Eukaryotes respond to dsRNA by inhibiting the transcription of the corresponding RNA, and interestingly, this inhibition extends to ssRNA as well. To knock out a gene in a model organism, injecting dsRNA that corresponds to the target gene can lead to a knockout effect in every cell. However, the technique may not be universally applicable across all eukaryotes, as it has been primarily observed in certain plants and specifically in organisms like C. elegans. The mechanism is suggested to be an ancient viral defense strategy, indicating that higher eukaryotes may lack this dsRNA response system.
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An interesting concept worth sharing: knocking a gene out in an organism.. how to do that.. now, dsRNA is used in the process. Eukaryotic organisms don’t have dsRNA (double stranded) only ssRNA. Some virusses though, DO have dsRNA. A eucaryotic organisms reacts to dsRNA by inhibiting the transcription of that particular RNA. But it turns out that ssRNA transcription of the particular kind is also inhibited! So if you’d like to knock out a gene in a model organism, inject it with dsRNA that codes for the gene. Every cell of the organism will react and knockout the fragment.

There must be some catches to the technique though because it sounds too simple :)
 
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Originally posted by Monique

There must be some catches to the technique though because it sounds too simple :)
I am pretty sure that this doesn't work in every eukaryote. I know it was discovered in some flower, and they find it works in most plants I think.

Apparently it is an 'old' virus protection thing, and so many higher eukaryotes don't have the dsRNA protection system.
 
Well, at least I know it works in C. elegans. It is true, I also heard it is an old mechanism.
 

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