The structural basis of Miranda-mediated Staufen localization during Drosophila neuroblast asymmetric division
2015.10.01Jia, M., Shan, Z., Yang, Y., Liu, C., Li, J., Luo, Z. G., Zhang, M., ... & Wang, W. (2015). Nature communications, 6(1), 8381.
During the asymmetric division of Drosophila neuroblasts (NBs), the scaffold Miranda (Mira) coordinates the subcellular distribution of cell-fate determinants including Staufen (Stau) and segregates them into the ganglion mother cells (GMCs). Here we show the fifth double-stranded RNA (dsRNA)-binding domain (dsRBD5) of Stau is necessary and sufficient for binding to a coiled-coil region of Mira cargo-binding domain (CBD). The crystal structure of Mira514–595/Stau dsRBD5 complex illustrates that Mira forms an elongated parallel coiled-coil dimer, and two dsRBD5 symmetrically bind to the Mira dimer through their exposed β-sheet faces, revealing a previously unrecognized protein interaction mode for dsRBDs. We further demonstrate that the Mira–Stau dsRBD5 interaction is responsible for the asymmetric localization of Stau during Drosophila NB asymmetric divisions. Finally, we find the CBD-mediated dimer assembly is likely a common requirement for Mira to recognize and translocate other cargos including brain tumour (Brat).
- Recommend
-
2024-10-08
New targets and designed inhibitors of ASAP Arf-GAPs derived from structural characterization of the ASAP1/440-kD ankyrin-B interaction
-
2024-06-18
CaMKII autophosphorylation is the only enzymatic event required for synaptic memory.
-
2024-06-15
AIDA-1/ANKS1B Binds to the SynGAP Family RasGAPs with High Affinity and Specificity.
-
Demixing is a default process for biological condensates formed via phase separation
-
Short-distance vesicle transport via phase separation.