RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @Debojyoti_C: Future looks really bright for patients. Thank you Dr. Liu @davidrliu https://t.co/Dsa0KbbPPE
Base editing of haematopoietic stem cells rescues sickle cell disease in mice https://t.co/6xTYaB6uxY #genomics #sicklecelldisease
Behold: the #postGWAS era is upon us. Awesome work. Wow. On my reading list.
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
Another big step towards an effective (and seemingly safe) cure for sickle cell disease in our lifetime...absolutely incredible!
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @rjerala: Članek o popravilu mutacije v genu za hemoglobin, ki povzroča srpasto anemijo. Vsako leti se rodi 300.000 ljudi s to mutacijo,…
RT @AkshaySharmaMD: Very proud of this collaboration with the @davidrliu lab. Look forward to moving this #BaseEditing strategy into a clin…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
Wow
Incredible!
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
A glimpse at what the 21st century might bring to medicine: Base editing of haematopoietic stem cells rescues sickle cell disease in mice @davidrliu https://t.co/Q3rsYLXyna
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @john_evans3: Beautiful @nature paper from labs of David Liu and Mitch Weiss showing base editing correction of the sickle mutation, lea…
RT @EveretteKelcee: Very proud of this massive collaborative effort and humbled by the potential this genome editing strategy may have in h…
RT @Debojyoti_C: Future looks really bright for patients. Thank you Dr. Liu @davidrliu
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @Debojyoti_C: Future looks really bright for patients. Thank you Dr. Liu @davidrliu
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
Was waiting for this, base editing for sickle cell disease (SCD). Hope, it soon be employed as a therapy. 👍🏽🤓 @davidrliu Congratulations to @Gregory_Newby, @JonathanYenPhD, @kaitly_woodard, @TMayuranathan
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EveretteKelcee: Very proud of this massive collaborative effort and humbled by the potential this genome editing strategy may have in h…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @Debojyoti_C: Future looks really bright for patients. Thank you Dr. Liu @davidrliu https://t.co/Dsa0KbbPPE
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
Incredible how fast the gene editing field moves. Amazing work from the Liu lab @davidrliu, @shengdarqtsai, the Weiss lab, and all the authors!
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
#CRISPR base editing of haematopoietic stem cells rescues sickle cell disease in mice https://t.co/lJsBcNG2aw
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @AkshaySharmaMD: Very proud of this collaboration with the @davidrliu lab. Look forward to moving this #BaseEditing strategy into a clin…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @john_evans3: Beautiful @nature paper from labs of David Liu and Mitch Weiss showing base editing correction of the sickle mutation, lea…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @davidrliu: Today we report in @Nature a base editing strategy that efficiently corrects the mutation in the β-globin gene HBB that caus…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…
RT @EricTopol: The potential of a 1-shot #CRISPR base editing cure for sickle cell disease gets support and is exhilarating https://t.co/I0…