Investigation of the effect of temperature on the structure of SARS-Cov-2 Spike Protein by Molecular Dynamics Simulations published as: https://t.co/XhIGX7uJTb #Frontiers_in_Molecular_Biosciences #biorxiv
Investigation of the effect of temperature on the structure of SARS-Cov-2 Spike Protein by Molecular Dynamics Simulations published as: https://t.co/XhIGX7uJTb #Frontiers_in_Molecular_Biosciences #biorxiv
RT @CornFeedUSA: @_Triggurz @notfreerifleman After attempting to dredge some clear information from this mess, I have decided to only drink…
@_Triggurz @notfreerifleman After attempting to dredge some clear information from this mess, I have decided to only drink from the skulls once they are autoclaved, exposed to high-wattage UV-C, then bathed with gamma radiation. https://t.co/8zRlO5AijQ
解熱剤は逆効果🤔https://t.co/uCVT7eKBUu
@keisuke4713 👏これは、2020 年のこの研究を思い出させます。熱に対する RBD の反応🥵。 https://t.co/5V7HgBVkCc
Covidde ateş pek yükselmiyordu! ".. Ek olarak, S1'in reseptör bağlama alanında (RBD) bulunan reseptör bağlanma motifinin (RBM) 40°C civarında kapanmaya başladığını ve 50°C'de tamamen kapalı bir konformasyona ulaştığını bulduk." https://t.co/4tYyvTJeu2
RT @overcatbe: This could be a problem. They've tested till ca 70Celsius, i would like to know what it does at 120-220 Celsius. No more #me…
This could be a problem. They've tested till ca 70Celsius, i would like to know what it does at 120-220 Celsius. No more #mediumRare for me.. 😳 https://t.co/fLam8oHrbh
RT @keisuke4713: 分子動力学Simulation コロナspike蛋白構造:温度の影響https://t.co/Y5fvFcMEq8 spike蛋白は温度に敏感 高温で受容体結合motif閉鎖 S1受容体結合domain(RBD)の受容体結合motif(RBM…
RT @keisuke4713: 分子動力学Simulation コロナspike蛋白構造:温度の影響https://t.co/Y5fvFcMEq8 spike蛋白は温度に敏感 高温で受容体結合motif閉鎖 S1受容体結合domain(RBD)の受容体結合motif(RBM…
RT @keisuke4713: coronavirus spike蛋白の分子運動と音波化 SARS、MERS、SARS-Cov-2 https://t.co/GJzSkYY1Et 微妙に違う spike蛋白に結合→硬化する分子で振動制限 逆振動を誘発→spike蛋白の自然な…
coronavirus spike蛋白の分子運動と音波化 SARS、MERS、SARS-Cov-2 https://t.co/GJzSkYY1Et 微妙に違う spike蛋白に結合→硬化する分子で振動制限 逆振動を誘発→spike蛋白の自然な振動を打ち消す noise-canceling headphoneが不要な音⬇️するのと同様 解熱剤は逆効果 https://t.co/KxVmAYNL40
RT @keisuke4713: 分子動力学Simulation コロナspike蛋白構造:温度の影響https://t.co/Y5fvFcMEq8 spike蛋白は温度に敏感 高温で受容体結合motif閉鎖 S1受容体結合domain(RBD)の受容体結合motif(RBM…
分子動力学Simulation コロナspike蛋白構造:温度の影響https://t.co/Y5fvFcMEq8 spike蛋白は温度に敏感 高温で受容体結合motif閉鎖 S1受容体結合domain(RBD)の受容体結合motif(RBM)は、40°C前後で閉じ始め、 50°Cで完全に閉じたconformationに ⇨Spike RBMのACE2結合能を無効化 *解熱剤は逆効果🤔 https://t.co/Sp2rYO0Rsy
RT @AtillaOzmumcu: The closing of the RBM buries the receptor binding residues inside trimer abolishing the possibility of contacts with th…
virüsün sıcaklıkta bulaşînın azalması gerekli ama patladı
RT @AtillaOzmumcu: The closing of the RBM buries the receptor binding residues inside trimer abolishing the possibility of contacts with th…
@virusfantom 🙏 hadi bir fikir? 😈
The closing of the RBM buries the receptor binding residues inside trimer abolishing the possibility of contacts with the ACE2 receptor and making the Spike protein inactive. Makalenin linki; https://t.co/PMaHQlmm3E. Mevsimsel etki hatta illüzyon tamamiyle
@Flobga https://t.co/QZ1oER2KKH voilà 1 tuyau (traduc ds google) à savoir: la Spike+l'ARN se sentent mal/dégradent vers 41°C (jusqu'à ce qu'ils ns sortent un prototype de vax résistant au soleil même ds le désert!) Cherchons sur le net cette T°C critique d
@MackayIM Hibernating Hedgehogs lol. Sorry pal I'm autistic hard to get my ideas out there probably better if I just unfollow you that way my mental tweets won''t bug you in the future. It's not my intention to come across as some sort of loony just trying
@Ayjchan Just something to consider regarding Spike analysis for animals (especially Bats where infection may persist during hibernation): "All cells were incubated at 37°C in a humidified atmosphere of 5% CO2." https://t.co/RY3ujxs7US
@hormone_doc Very few papers on this & NONE get the obvious idea of pattern matching Temp to Cases in the real world. But this one in October is fairly good. Explains both LOW and HIGH temp. I think it hangs around as fomites longer below 8c & abov
New Research: Investigation of the Effect of Temperature on the Structure of SARS-CoV-2 Spike Protein by Molecular Dynamics Simulations https://t.co/0zsTafuEUk #MolBioSci
Investigation of the effect of temperature on the structure of SARS-Cov-2 Spike Protein by Molecular Dynamics Simulations https://t.co/P6oFYU9Kfq @warangal_nit