An experimentally determined protein folding energy landscape
AUTOR(ES)
Mello, Cecilia C.
FONTE
National Academy of Sciences
RESUMO
Energy landscapes have been used to conceptually describe and model protein folding but have been difficult to measure experimentally, in large part because of the myriad of partly folded protein conformations that cannot be isolated and thermodynamically characterized. Here we experimentally determine a detailed energy landscape for protein folding. We generated a series of overlapping constructs containing subsets of the seven ankyrin repeats of the Drosophila Notch receptor, a protein domain whose linear arrangement of modular structural units can be fragmented without disrupting structure. To a good approximation, stabilities of each construct can be described as a sum of energy terms associated with each repeat. The magnitude of each energy term indicates that each repeat is intrinsically unstable but is strongly stabilized by interactions with its nearest neighbors. These linear energy terms define an equilibrium free energy landscape, which shows an early free energy barrier and suggests preferred low-energy routes for folding.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=521126Documentos Relacionados
- Protein folding and unfolding on a complex energy landscape
- Multiple pathways on a protein-folding energy landscape: Kinetic evidence
- Volume and energy folding landscape of prion protein revealed by pressure
- Synergy between simulation and experiment in describing the energy landscape of protein folding
- Probing the folding free energy landscape of the src-SH3 protein domain