RT @BiotechRadar: Repair of double-strand breaks induced by CRISPR–Cas9 leads to large deletions & complex rearrangements https://t.co/7uo…
RT @michaelkosicki: We describe extensive Cas9-induced on-target genomic damage. Much of it missed by standard genotyping methods. Publishe…
We describe extensive Cas9-induced on-target genomic damage. Much of it missed by standard genotyping methods. Published today @NatureBiotech https://t.co/zWZaFkbVpz #CRISPR #GeneEditing @tombergk
RT @yamagatm3: これが元論文なのだが、こういうのって実際にやっている人なら知っていることだと思う。私も、こういう感じの現象は何度も体験してきている。 https://t.co/B44ClfBTzu https://t.co/iaDw6c7ZBi
これが元論文なのだが、こういうのって実際にやっている人なら知っていることだと思う。私も、こういう感じの現象は何度も体験してきている。 https://t.co/B44ClfBTzu https://t.co/iaDw6c7ZBi
Important findings on CRISPR–Cas9 on-target specificity by @michaelkosicki and @tombergk et al. from @sangerinstitute: https://t.co/JBkUhcn5nj
CRISPR-Cas9 introduces significant on - target mutagenesis and distal crossover/lesion damage. The validation of the original method should have included more than 1kb around the target site, maybe? #CRISPR #biotech https://t.co/QH9DxfgmMe
RT @tombergk: Our paper on unanticipated Cas9-directed genomic damage now out in @NatureBiotech. Major congrats to first author @michaelkos…
RT @rolen_m: Wow! Interesting Latest from @sangerinstitute by Prof. Bradley's team Repair of double-strand breaks induced by #CRISPR –Cas9…
RT @AndyBiotech: #CRISPR stocks getting rocked again... $EDIT -5% $CRSP -6% $NTLA -7% https://t.co/epeGNFxPLI Here is the new @NatureBiote…
Repair of double-strand breaks induced by CRISPR–Cas9 leads to large deletions and complex rearrangements | Natur https://t.co/KmsAUQPZka
RT @AndyBiotech: #CRISPR stocks getting rocked again... $EDIT -5% $CRSP -6% $NTLA -7% https://t.co/epeGNFxPLI Here is the new @NatureBiote…
RT @AndyBiotech: #CRISPR stocks getting rocked again... $EDIT -5% $CRSP -6% $NTLA -7% https://t.co/epeGNFxPLI Here is the new @NatureBiote…
DNA repair after Cas9 targeting is messy: https://t.co/JWpVa1Kfae Many challenges lie ahead for in vivo gene editing with #CRISPR. Selection for and delivery of cells with error free editing will be central to successful clinical applications.
RT @tombergk: Our paper on unanticipated Cas9-directed genomic damage now out in @NatureBiotech. Major congrats to first author @michaelkos…
RT @AndyBiotech: #CRISPR stocks getting rocked again... $EDIT -5% $CRSP -6% $NTLA -7% https://t.co/epeGNFxPLI Here is the new @NatureBiote…
RT @EricTopol: Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitut…
RT @AndyBiotech: #CRISPR stocks getting rocked again... $EDIT -5% $CRSP -6% $NTLA -7% https://t.co/epeGNFxPLI Here is the new @NatureBiote…
RT @EricTopol: Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitut…
Another "CRISPR Calamity"? U.K. Team Reports CRISPR-Induced Gene Rearrangements (GEN & Nat Biotech) https://t.co/vdlxfquJxO https://t.co/vdlxfquJxO
Our paper on unanticipated Cas9-directed genomic damage now out in @NatureBiotech. Major congrats to first author @michaelkosicki!! https://t.co/6Ms0oZttk4 #CRISPR
#CRISPR stocks getting rocked again... $EDIT -5% $CRSP -6% $NTLA -7% https://t.co/epeGNFxPLI Here is the new @NatureBiotech paper about on-target mutagenesis https://t.co/qKzBagXuha https://t.co/nDP01LUWcY
RT @EricTopol: Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitut…
Repair of double-strand breaks induced by CRISPR–Cas9 leads to large deletions & complex rearrangements https://t.co/7uobOt0cJZ
Repair of double-strand breaks induced by CRISPR–Cas9 leads to large deletions and complex rearrangements https://t.co/RnWtggonh4 https://t.co/mGGMnYdx3P
Repair of double-strand breaks induced by CRISPR–Cas9 leads to large deletions and complex rearrangements https://t.co/yW1MrD8W2I https://t.co/hztzfZZHXV
Retweeted Eric Topol (@EricTopol): Questioning the real on-target specificity of #CRISPR genome editing https://t.co/kTmX8TTti3 @NatureBiotech @sangerinstitute https://t.co/bsPxC91mnR https://t.co/kTmX8TTti3
RT @EricTopol: Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitut…
RT @rolen_m: Wow! Interesting Latest from @sangerinstitute by Prof. Bradley's team Repair of double-strand breaks induced by #CRISPR –Cas9…
RT @EricTopol: Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitut…
RT @EricTopol: Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitut…
Yikes, sounds bad! #CRISPR https://t.co/tTTYGGtSmu
Questioning the real on-target specificity of #CRISPR genome editing https://t.co/nDT3o0L5pJ @NatureBiotech @sangerinstitute https://t.co/eMiS5hCBwK
Repair of double-strand breaks induced by CRISPR–Cas9 leads to large deletions and complex rearrangements https://t.co/qQCQvPIaFU https://t.co/XdeUz6k11f
Wow! Interesting Latest from @sangerinstitute by Prof. Bradley's team Repair of double-strand breaks induced by #CRISPR –Cas9 leads to large deletions and complex rearrangements https://t.co/qOTeVO61WI