Structure of the zinc-finger antiviral protein in complex with RNA reveals a mechanism for selective targeting of CG-rich viral sequences https://t.co/jp37GYPe5B
RT @PaulBieniasz: @WashburneAlex I actually know a little bit about this general area (see below). Redfield made a comically simplified pig…
@WashburneAlex I actually know a little bit about this general area (see below). Redfield made a comically simplified pig's ear of parroting what is an already somewhat naive discourse on the topic https://t.co/W3jhJot5OK https://t.co/Uyjogz9svv https://t.
@tony_vandongen @pathogenetics Zinc Finger Antiviral Protein https://t.co/NGDbRE7XkG.
Structure of the zinc-finger antiviral protein in complex with RNA reveals a mechanism for selective targeting of CG-rich viral sequences. https://t.co/9Kz0c7bzfV
RT @BehavEcolPapers: Structure of the zinc-finger antiviral protein in complex with RNA reveals a mechanism for selective targeting of CG-r…
Structure of the zinc-finger antiviral protein in complex with RNA reveals a mechanism for selective targeting of CG-rich viral sequences [Microbiology] https://t.co/BLWFxpno69 @PNASNews
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
Structure of the zinc-finger antiviral protein in complex with RNA reveals a mechanism for selective targeting of CG-rich viral sequences https://t.co/lDYdzoQtgI
RT @GauntLab: ZAP RNA binding groove fits a CpG motif just perfectly 💖 https://t.co/g4L5HuMcd1
Structure of the zinc-finger antiviral protein in complex with RNA reveals a mechanism for selective targeting of CG-rich viral sequences. https://t.co/T09cOl1ojV
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @GauntLab: ZAP RNA binding groove fits a CpG motif just perfectly 💖 https://t.co/g4L5HuMcd1
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
ZAP RNA binding groove fits a CpG motif just perfectly 💖
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
RT @PaulBieniasz: How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences…
How does ZAP recognize non-self, CG-rich RNA? Collaboration led by @JenniferMeaghe8 and Janet Smith at @UMLifeSciences with contributions from Matthew Takata and @DanSalves_ shows how in atomic detail...... https://t.co/wlPU8Y6f0n https://t.co/aZgCXVy5