RT @rli22: We used #biochemistry #cellbiology #NMR #SAXS #NativeMS & #EPR to build a picture of a molecular #litterpicker that helps mainta…
RT @rli22: We used #biochemistry #cellbiology #NMR #SAXS #NativeMS & #EPR to build a picture of a molecular #litterpicker that helps mainta…
RT @rli22: We used #biochemistry #cellbiology #NMR #SAXS #NativeMS & #EPR to build a picture of a molecular #litterpicker that helps mainta…
We used #biochemistry #cellbiology #NMR #SAXS #NativeMS & #EPR to build a picture of a molecular #litterpicker that helps maintain the crowded cellular environment-yay 4 #interdisciplinarity https://t.co/tCNSyoqRZ9
RT @Santi_kmko: Latest paper from @rli22 lab is out at @BMCBiology!! Structural complexity of the co-chaperone SGTA... https://t.co/rJ5E6Uz…
RT @Santi_kmko: Latest paper from @rli22 lab is out at @BMCBiology!! Structural complexity of the co-chaperone SGTA... https://t.co/rJ5E6Uz…
@Santi_kmko as lead author & contributions from @BeeCurieous + many awesome collaborators... https://t.co/P28yvsncIN
Latest paper from @rli22 lab is out at @BMCBiology!! Structural complexity of the co-chaperone SGTA... https://t.co/rJ5E6Uz1Yk
RT @BMCBiology: A tweezer-like motion for the co-chaperone #SGTA - @rli22 and colleagues demonstrate that the C-terminal region of SGTA und…
Structural complexity of the co-chaperone SGTA: a conserved C-terminal region is implicated in dimerization and substrate quality control. https://t.co/R8sS6oo3xn https://t.co/gMaziePaaF
RT @rli22: The journal got there before me! Here's our latest paper... https://t.co/YFpZzNq1iF
RT @rli22: The journal got there before me! Here's our latest paper... https://t.co/YFpZzNq1iF
RT @rli22: The journal got there before me! Here's our latest paper... https://t.co/YFpZzNq1iF
The journal got there before me! Here's our latest paper... https://t.co/YFpZzNq1iF
Structural complexity of the co-chaperone SGTA: a conserved C-terminal region is implicated in dimerization an... https://t.co/NLYcpYqzcR