Yes I would because although we discovered that it plays a role in the Double-strand breakage repair mechanism, we do not know the exact function. It would be useful to perform more research to discover its specific role in the T. therm DNA repair mechanism
I don’t necessarily think that it would be a competitor. If anything, the T. therm double strand breakage repair mechanism is extremely advanced as the Dna is spliced during the T. therm’s reproduction cycle. There could be genes that are better candidates that perform the same function, however, little is known about our gene and we don’t know its exact role in the T. therm double strand breakage repair mechanism. Due to this, we cannot compare it to other genes at this date
curesymposium.org 
Would you suggest other scientists to continue with WD40 to see its exact properties?
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Yes I would because although we discovered that it plays a role in the Double-strand breakage repair mechanism, we do not know the exact function. It would be useful to perform more research to discover its specific role in the T. therm DNA repair mechanism
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Do you think WD40 could be a possible competitor in the gene expression world in comparison to other techniques already developed for this issue?
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I don’t necessarily think that it would be a competitor. If anything, the T. therm double strand breakage repair mechanism is extremely advanced as the Dna is spliced during the T. therm’s reproduction cycle. There could be genes that are better candidates that perform the same function, however, little is known about our gene and we don’t know its exact role in the T. therm double strand breakage repair mechanism. Due to this, we cannot compare it to other genes at this date
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What would this experiment/research mean for the healthcare industry?
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