Xiaoyi Fan (@xiaoyi_fann) 's Twitter Profile
Xiaoyi Fan

@xiaoyi_fann

structural biology

ID: 1555252083863031809

calendar_today04-08-2022 18:00:16

9 Tweet

19 Followers

66 Following

@AbrahamLabHMS (@abrahamlabhms) 's Twitter Profile Photo

We are excited to share our Nature Communications paper by postdoc Pan Pan Yang and The PhD Program in Virology at HMS grad student Wanyu wy on the structural binding mode of eastern equine encephalitis virus (EEEV) and Semliki forest virus (SFV) with receptor VLDLR rb.gy/2ryjcu

We are excited to share our <a href="/NatureComms/">Nature Communications</a> paper by postdoc Pan <a href="/an32169364/">Pan Yang</a> and <a href="/VirologyHarvard/">The PhD Program in Virology at HMS</a> grad student Wanyu <a href="/wanyuviridae/">wy</a> on the structural binding mode of eastern equine encephalitis virus (EEEV) and Semliki forest virus (SFV) with receptor VLDLR
rb.gy/2ryjcu
@AbrahamLabHMS (@abrahamlabhms) 's Twitter Profile Photo

Excited to share our most recent paper at Cell in which we used #CryoEM to study conformational dynamics as a determinant of drug selectivity and resistance for the herpes simplex virus DNA polymerase. cell.com/cell/fulltext/…

Xiaoyi Fan (@xiaoyi_fann) 's Twitter Profile Photo

Thrilled to share our study bioRxiv ! We explored the molecular basis for shifting patterns of receptor binding by different WEEV strains during evolution.

Xiaoyi Fan (@xiaoyi_fann) 's Twitter Profile Photo

Our study uncovering the molecular basis of receptor recognition shifts in Western equine encephalitis virus (WEEV) over its evolution is now officially out in Cell. Huge thanks to everyone who contributed to this work.

Science in Boston (@scienceinboston) 's Twitter Profile Photo

New research from the Abraham lab (@AbrahamLabHMS) at Harvard Medical School shows how small shifts in the molecular makeup of a virus can profoundly alter its fate. 📰 bit.ly/3EhYRB6 ✏️ bit.ly/4j7GjTk

New research from the Abraham lab (<a href="/abrahamlabhms/">@AbrahamLabHMS</a>) at <a href="/harvardmed/">Harvard Medical School</a> shows how small shifts in the molecular makeup of a virus can profoundly alter its fate.

📰 bit.ly/3EhYRB6
✏️ bit.ly/4j7GjTk
Harvard Medical School (@harvardmed) 's Twitter Profile Photo

Changes in spike proteins could turn a deadly pathogen into a harmless bug or supercharge a relatively benign virus, according to new research aimed to understand the risk of WEEV bit.ly/3E4T7uB