The authors of "Homology-independent multiallelic disruption via C…" (https://t.co/OzeEypM7Qn) included RRIDs in their paper! RRIDs like this improve reproducibility in scientific research. #RRID #STMpublishing
Homology-independent multiallelic disruption via CRISPR/Cas9-based knock-in yields distinct functional outcomes in human cells. https://t.co/jLWEv7LFAc
RT @BMCBiology: How can multiple #allele disruptions in #aneuploid #cells be traced? – Bo Feng and colleagues combine dual #fluorescence re…
RT @BMCBiology: How can multiple #allele disruptions in #aneuploid #cells be traced? – Bo Feng and colleagues combine dual #fluorescence re…
RT @BMCBiology: How can multiple #allele disruptions in #aneuploid #cells be traced? – Bo Feng and colleagues combine dual #fluorescence re…
RT @BMCBiology: How can multiple #allele disruptions in #aneuploid #cells be traced? – Bo Feng and colleagues combine dual #fluorescence re…
How can multiple #allele disruptions in #aneuploid #cells be traced? – Bo Feng and colleagues combine dual #fluorescence reporters with #CRISPR/Cas9 homology-independent repair, and reveal cellular mechanisms that bypass #mutations of essential genes. http
From Bo Feng and colleagues- dual #fluorescence reporters combined to #CRISPR/#Cas9 homology-independent repair detect #multiallelic disruptions, but repair and #splicing mechanisms generate functional #transcripts that bypass loss-of-function #mutations.
Homology-independent multiallelic disruption via #CRISPR/Cas9-based knock-in yields distinct functional outcomes in human cells. Zhang C, He X [..] Chan WY, Feng B.BMC Biol. 2018-12-028. https://t.co/BYkyeQKGDK
Homology-independent multiallelic disruption via CRISPR/Cas9-based knock-in yields distinct functional outcomes in human cells. https://t.co/coiMRC4jif
Homology-independent multiallelic disruption via CRISPR/Cas9-based knock-in yields distinct functional outcomes in human cells. https://t.co/j1WMVNxMgD https://t.co/V8a0fw5lc0