Xinbo Wang
@xinbowang.bsky.social
📤 55
📥 14
📝 0
reposted by
Xinbo Wang
Michael Hanna
14 days ago
New paper alert! I’m very excited to share our paper published in
@embojournal.org
!
@pdc-lab.bsky.social
@yaleneuro.bsky.social
add a skeleton here at some point
2
24
10
reposted by
Xinbo Wang
The Science of Parkinson's
6 months ago
New research from
@pdc-lab.bsky.social
& collaborators finds that the bridge-like lipid transport protein VPS13C/PARK23 mediates ER–lysosome contacts following lysosome damage;
#Parkinsons-associated
LRRK2 is also recruited but at later stage
www.nature.com/articles/s41...
1
3
2
reposted by
Xinbo Wang
Nature Cell Biology
5 months ago
☕Wang et al. show the recruitment of the
#lipid
channel protein VPS13C and formation of VPS13C-dependent contacts between endoplasmic reticulum and
#lysosomes
after lysosomal damage.
bit.ly/4jT01lz
loading . . .
The bridge-like lipid transport protein VPS13C/PARK23 mediates ER–lysosome contacts following lysosome damage - Nature Cell Biology
Wang et al. show the recruitment of the lipid channel protein VPS13C and formation of VPS13C-dependent contacts between endoplasmic reticulum and lysosomes after lysosomal damage.
https://bit.ly/4jT01lz
0
18
4
reposted by
Xinbo Wang
De Camilli Lab
6 months ago
"The bridge-like lipid transport protein VPS13C/PARK23 mediates ER–lysosome contacts following lysosome damage" out now in Nature Cell Biology
rdcu.be/ehbaL
loading . . .
The bridge-like lipid transport protein VPS13C/PARK23 mediates ER–lysosome contacts following lysosome damage
Nature Cell Biology - Wang et al. show the recruitment of the lipid channel protein VPS13C and formation of VPS13C-dependent contacts between endoplasmic reticulum and lysosomes after lysosomal...
https://rdcu.be/ehbaL
0
50
26
you reached the end!!
feeds!
log in
