Sammanfattning
Understanding the signalling function of Ras GTPases has been the focus of much research for over 20 years. Both the catalytic domain and the membrane anchoring C terminal hypervariable region (HVR) of Ras are necessary for its cellular function. However, while the highly conserved catalytic domain has been characterized in atomic detail, the structure of the full-length membrane-bound Ras has remained elusive. Lack of structural knowledge on the full-length protein limited our understanding of Ras signalling. For example, structures of the Ras catalytic domain solved in complex with effectors do not provide a basis for the functional specificity of different Ras isoforms. Recent molecular dynamics simulations in combination with biophysical and cell biological experiments have shown that the HVR and parts of the G domain cofunction with the lipid tails to anchor H-ras to the plasma membrane. In the GTP-bound state, H-ras adopts an orientation that allows read out by Ras effectors and translation into corresponding MAPK signalling. Here we discuss details of an analysis that suggests a novel balance model for Ras functioning. The balance model rationalizes Ras membrane orientation and may help explain isoform specific interactions of Ras with its effectors and modulators.
Originalspråk | Odefinierat/okänt |
---|---|
Sidor (från-till) | 2667–2673 |
Antal sidor | 7 |
Tidskrift | Cell Cycle |
Volym | 7 |
Nummer | 17 |
Status | Publicerad - 2008 |
MoE-publikationstyp | A1 Tidskriftsartikel-refererad |
Nyckelord
- FRET
- microdomain
- nanocluster
- plasma membrane
- Ras
- structure