This is pretty wild...
RT @Lab_FURUKAWA: Our Journal Club today covered the "QTY code" - an interesting approach of altering membrane proteins to become soluble:…
Our Journal Club today covered the "QTY code" - an interesting approach of altering membrane proteins to become soluble: https://t.co/B2cfbu9owL (Paper from Shuguang Zhang's lab at the MIT Center of Bits and Atoms @medialab ). - "WE QTKED TT" (we liked it!
QTY code enables design of detergent-free chemokine receptors that retain ligand-binding activities [Biophysics and Computational Biology] https://t.co/BqzxPf6c9D #biophysics https://t.co/viQkDFCXnl
RT @CCVernhes: Promising advance out of MIT: code renders membrane proteins water-soluble https://t.co/wBamNGYhnL #ProteinEngineering
RT @CCVernhes: Promising advance out of MIT: code renders membrane proteins water-soluble https://t.co/wBamNGYhnL #ProteinEngineering
Promising advance out of MIT: code renders membrane proteins water-soluble https://t.co/wBamNGYhnL #ProteinEngineering
Interesting approach for making membrane proteins water soluble https://t.co/3ODOVJSx7V
RT @aj8791: "QTY code" to make your membrane protein water-soluble! There was a previous report of a Mu receptor that was made water solubl…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @t_malinauskas: A new hope for transmembrane protein researchers. QTY (glutamine, threonine, and tyrosine) code enables design of deterg…
RT @aj8791: "QTY code" to make your membrane protein water-soluble! There was a previous report of a Mu receptor that was made water solubl…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
QTY code enables design of detergent-free chemokine receptors that retain ligand-binding activities https://t.co/53dbeLSrIU
This is an interesting trick; replace hydrophobic residues in membrane proteins with hydrophilic residues that have similar electron density maps (the “QTY” code) and now you purify ligand binding competent GPCRs detergent free! https://t.co/f7gGqanCxe
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
QTY code enables design of detergent-free chemokine receptors that retain ligand-binding activities. https://t.co/Jz1czTmn3G https://t.co/D0VCgRBpL1
"QTY code" to make your membrane protein water-soluble! There was a previous report of a Mu receptor that was made water soluble through mutagenesis, didn't have much joy with that one!! #GPCR https://t.co/XGIDBOTvw6
A new hope for transmembrane protein researchers. QTY (glutamine, threonine, and tyrosine) code enables design of detergent-free chemokine transmembrane receptors that retain ligand-binding activities: https://t.co/otU9uT4J6H
RT @THebertMcGill: Is this going to transform GPCR structural biology? https://t.co/pKrGs5HcJY https://t.co/pKrGs5HcJY
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
Very interesting and important article
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
WoooooW !!!
WoooooW !!!
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
Is this going to transform GPCR structural biology? https://t.co/pKrGs5HcJY https://t.co/pKrGs5HcJY
RT @NatureBiotech: A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https…
A protein engineering approach using a code to make membrane proteins water soluble applied to chemokine receptors https://t.co/7VMrgBYTte #NBThighlight https://t.co/LEvNEd9LnO
@MIT scientists alter membrane proteins to make them easier to study: https://t.co/1RmKK85aXH https://t.co/WLHUNGq3mJ