#Covid2019 #Omicron 免疫回避と言っても・・ただ単に抗体がウィルスにくっつかなりにくくなっただけなんだから・・方法があるはず・・VHドメインを改良できないかな・・ もしくはリガンドでウィルスの侵入経路である受容体を作用させてウィルスの侵入を阻害するとか。 https://t.co/tUq54ErDh4
Bi-paratopic and multivalent VH domains block ACE2 binding and neutralize SARS-CoV-2. https://t.co/7cl0fEk1Gx
I'm a few days late, but very excited to share our recent work. Shoutout to the massive effort from @realJimWells lab and our great collaborators at the #QCRG
RT @nchembio: A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies…
RT @nchembio: A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies…
RT @nchembio: A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies…
RT @shionanlim: Check out our most recent work from @realJimWells Covid Team! By linking together small single-domain antibodies that targe…
RT @nchembio: A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies…
RT @nchembio: A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies…
RT @nchembio: A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies…
A new paper from @realJimWells and the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent nanobodies that bind the SARS-CoV-2 Spike protein receptor-binding domain. Readable link at https://t.co/rPACjHBYMT. https://t.co/YwXFIklwv7
RT @shionanlim: Check out our most recent work from @realJimWells Covid Team! By linking together small single-domain antibodies that targe…
Published in @nchembio! 👨🔬👩🔬 Dr. James Wells and @UCSF scientists present a strategy to rapidly identify and assemble synthetic human variable heavy domains toward neutralizing epitopes. #SARS-CoV-2 #COVID-19 👁️ Open access https://t.co/P7pup5lK4X http
RT @shionanlim: Check out our most recent work from @realJimWells Covid Team! By linking together small single-domain antibodies that targe…
#COVID19 updates deltaACE2:https://t.co/0EC0LQcXDG ACE2 binding and neutralize: https://t.co/MlIZKKBSNH Structural analysis:https://t.co/55y4SUuBVI N gene:https://t.co/56ZriDeVKC @drharshvardhan @ICMRDELHI @MoHFW_INDIA @republic #COVID #Covid_19 #COVID__
RT @shionanlim: Check out our most recent work from @realJimWells Covid Team! By linking together small single-domain antibodies that targe…
RT @shionanlim: Check out our most recent work from @realJimWells Covid Team! By linking together small single-domain antibodies that targe…
Check out our most recent work from @realJimWells Covid Team! By linking together small single-domain antibodies that target SARS-CoV-2 Spike protein, we significantly increase the potency of this engineered antibody to block viral infection. https://t.co/
@realJimWells and colleagues in the #QCRG Structural Biology Consortium developed bi-paratopic and multivalent VH-based nanobodies that bind the #SARSCoV2 Spike protein receptor-binding domain at its interface with host ACE2 https://t.co/erKYTWenu4 https:/
Awesome group effort by our lab to develop VH-multimers that neutralize SARS-CoV-2! Also special #SO to @tinagoneviral for being our go-to virologist and giving us some amazing advice and resources! https://t.co/rz7guKqIW2