AI Article Synopsis
- SCOC interacts with FEZ1 to regulate autophagy and its crystal structure has been determined, showing a parallel left-handed coiled coil dimer with flexibility due to polar and charged residues.
- Mutations to core residues E93/K97 and N125/N132 significantly increase stability and alter the oligomerization state to trimer and tetramer, respectively.
- The interaction between SCOC and FEZ1 requires SCOC dimerization and the specific surface residue R117 plays a critical role in this complex formation.
Article Abstract
The short coiled coil protein (SCOC) forms a complex with fasciculation and elongation protein zeta 1 (FEZ1). This complex is involved in autophagy regulation. We determined the crystal structure of the coiled coil domain of human SCOC at 2.7 Å resolution. SCOC forms a parallel left handed coiled coil dimer. We observed two distinct dimers in the crystal structure, which shows that SCOC is conformationally flexible. This plasticity is due to the high incidence of polar and charged residues at the core a/d-heptad positions. We prepared two double mutants, where these core residues were mutated to either leucines or valines (E93V/K97L and N125L/N132V). These mutations led to a dramatic increase in stability and change of oligomerisation state. The oligomerisation state of the mutants was characterized by multi-angle laser light scattering and native mass spectrometry measurements. The E93V/K97 mutant forms a trimer and the N125L/N132V mutant is a tetramer. We further demonstrate that SCOC forms a stable homogeneous complex with the coiled coil domain of FEZ1. SCOC dimerization and the SCOC surface residue R117 are important for this interaction.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3788124 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0076355 | PLOS |
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