-Search query
-Search result
Showing all 9 items for (author: brautigam & ca)
![](data/emdb/media/40455/emdbimg.jpg)
EMDB-40455:
Cryo-EM structure of Karyopherin-beta2 bound to HNRNPH2 PY-NLS
Method: single particle / : Gonzalez A, Fung HYJ, Chook YM
![](data/emdb/media/20572/snaps2.jpg)
EMDB-20572:
Cryo-EM structure of extracellular dimeric complex of RET/GFRAL/GDF15
Method: single particle / : Li J, Shang GJ, Chen YJ, Brautigam CA, Liou J, Zhang XW, Bai XC
![](data/emdb/media/20573/snaps2.jpg)
EMDB-20573:
Cryo-EM structure of RET/GFRAL/GDF15 extracellular complex. The 3D refinement was focused on one of two halves with C1 symmetry applied.
Method: single particle / : Li J, Shang GJ, Zhang XW, Bai XC
![](data/emdb/media/20575/snaps2.jpg)
EMDB-20575:
Cryo-EM structure of RET/GFRa1/GDNF extracellular complex
Method: single particle / : Li J, Shang GJ, Chen YJ, Brautigam CA, Liou J, Zhang XW, Bai XC
![](data/emdb/media/20576/snaps2.jpg)
EMDB-20576:
Cryo-EM structure of RET/GFRa2/NRTN extracellular complex. The 3D refinement was applied with C2 symmetry.
Method: single particle / : Li J, Shang GJ, Chen YJ, Brautigam CA, Liou J, Zhang XW, Bai XC
![](data/emdb/media/20577/snaps2.jpg)
EMDB-20577:
Cryo-EM structure of RET/GFRa2/NRTN extracellular complex. The 3D refinement was focused on one of two halves with C1 symmetry applied.
Method: single particle / : Li J, Shang GJ
![](data/emdb/media/20578/snaps2.jpg)
EMDB-20578:
Cryo-EM structure of RET/GFRa2/NRTN extracellular complex in the tetrameric form
Method: single particle / : Li J, Shang GJ, Chen YJ, Brautigam CA, Liou J, Zhang XW, Bai XC
![](data/emdb/media/20579/snaps2.jpg)
EMDB-20579:
Cryo-EM structure of RET/GFRa3/ARTN extracellular complex. The 3D refinement was applied with C2 symmetry.
Method: single particle / : Li J, Shang GJ, Chen YJ, Brautigam CA, Liou J, Zhang XW, Bai XC
![](data/emdb/media/20580/snaps2.jpg)
EMDB-20580:
Cryo-EM structure of RET/GFRa3/ARTN extracellular complex. The 3D refinement was focused on one of two halves with C1 symmetry applied.
Method: single particle / : Li J, Shang GJ