RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
Science magazine: worth the follow for the graphics alone.
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
What the hell is a fatty acid binding site doing on the SARS/MERS spike? Linoleic acid seems to be forcing a less harmful conformation (in vitro). Fascinating. https://t.co/bc2R6oQMwL
Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein https://t.co/dh6IavTxIj
La suplementació amb àcid linoleic podria contribuir al tractament d la #COVIDー19 o coadjuvar al tractament farmacològic, p ex: remdesivir + supl. LA?
"Our 2.85 Å cryo-EM structure of SARS-CoV-2 spike (S) glycoprotein reveals that the receptor binding domains (RBDs) tightly bind the essential free fatty acid (FFA) linoleic acid (LA) in three composite binding pockets." #COVIDー19 #COVID__19 #COVID19 https
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
Ground-breaking research from the Schaffitzel/Berger group and collaborators points the way to new understanding of SARS CoV2 pathogenesis and new antiviral strategies @BristolUncover @BristolUni https://t.co/Azoojf8P8P https://t.co/XWDrK4LeQj
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
@hervecelia @electronimus
RT @ScienceMagazine: A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, lino…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
A cryo-electron microscopy study of #SARCoV2 in insect cells shows its spike binds the essential free fatty acid, linoleic acid. Further study will reveal if the related binding pocket on the virus could be a target for #COVID19 therapies. https://t.co/jUN
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
RT @florian_krammer: I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally fo…
I find it very satisfying to see that reagents we made and distributed in early spring are put to good use globally for high impact research on SARS-CoV-2. Congratulations to Imre Berger and Christiane Schaffitzel @MaxPlanckBris https://t.co/HUSQX9HJv6
Un estudio de microscopía crioelectrónica de #SARCOV2 en células de insectos muestra que su pico se une al ácido graso libre esencial y al ácido linoleico, revelando un nuevo objetivo para tratamiento de #COVID19. https://t.co/P2zz4lcpSy
RT @JeremyFarrar: Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein https://t.co/IjqdeZiSH9
RT @JeremyFarrar: Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein https://t.co/IjqdeZiSH9
Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein https://t.co/IjqdeZiSH9
RT @rolyatlihp: Really Important Covid research from Imre Berger at al University of Bristol just published in Science https://t.co/JDiNUml…
RT @UKRI_News: Read it in @ScienceMagazine here: https://t.co/031ETl8UHz
RT @hpcchris: Good to see @BristolUni_ACRC and @GMX_TWEET involved in this result “Software. The GROMACS-2019.2 (24) suite of software was…
RT @Berger_labs: Hooray for Bristol ! THANKS everybody. Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein…
RT @Berger_labs: Hooray for Bristol ! THANKS everybody. Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein…
Good to see @BristolUni_ACRC and @GMX_TWEET involved in this result “Software. The GROMACS-2019.2 (24) suite of software was used to set up and perform the molecular dynamics simulations and analyses for BlueGEM and BlueCrystal Phase 4 runs”
RT @Berger_labs: Hooray for Bristol ! THANKS everybody. Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein…
RT @DrYannMoalic: Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein | Science https://t.co/dbaEZsqv9G
RT @OStaufer: Our @ScienceMagazine paper on linoleic acid binding by #SARSCoV2 is now online. Important step to understand the pathology of…
Hooray for Bristol ! THANKS everybody. Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein #SARSCoV2 #Covid_19 #welovebristol #cryoEM @MaxPlanckBris @BristolUni @BrisSynBio @GW4CryoEM @Oracle @OracleCloud @imophoron http
RT @OStaufer: Our @ScienceMagazine paper on linoleic acid binding by #SARSCoV2 is now online. Important step to understand the pathology of…
Free fatty acid binding pocket in the locked structure of SARS-CoV-2 spike protein | Science https://t.co/dbaEZsqv9G
Our @ScienceMagazine paper on linoleic acid binding by #SARSCoV2 is now online. Important step to understand the pathology of #coronavirus and a great experience to work with this team @MaxPlanckBris @Berger_labs @BristolUni @mpi_mr_hd @BrisBioDesign https
Read it in @ScienceMagazine here: https://t.co/031ETl8UHz