wide range _ human health as well, and there is a wide range of diseases that have determinants that will be found in dna _ determinants that will be found in dna the — determinants that will be found in dna. the one example of which would be sickle _ dna. the one example of which would be sickle cell disease that is prevalent in a serious condition worldwide _ prevalent in a serious condition worldwide in particular. and we have seen a _ worldwide in particular. and we have seen a really exciting approvals both _ seen a really exciting approvals both in— seen a really exciting approvals both in the uk and the us for our crispr_ both in the uk and the us for our crispr medicine that can take a patient — crispr medicine that can take a patient that is otherwise unhealthy and which — patient that is otherwise unhealthy and which has sickle red blood cells specifically, edit the patient's genes— specifically, edit the patient's genes in— specifically, edit the patient's genes in particular to find a one and done — genes in particular to find a one and done lasting cure to make the patient _ and done lasting cure to make the patient now healthy and not systematic at all. so i think that's really— systematic at all. so i think that's really a _ systematic at all. so i think that's really a promise of gene entity that has been _ really a promise of gene entity that has been enabled by it crispr and we are really— has been enabled by it crispr and we are really excited to build upon that and — are really excited to build upon that and go beyond that altogether. that is _ that and go beyond that altogether. that is a _ that and go beyond that altogether. that is a complete moonshot. as described in the beginning, i don't how much idea to have for you to go this book could well guess what the applications are. what other digital cures are we talking about? absolutely. at least in the remove