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The Folding Funnel and the Rugged Energy Landscape
Plots represent 3-dimensional idealizations of a the many, many-dimensionalspace representing the energy of a protein chain as a function of conformation,under conditions where the native conformation (“N”) is most stable (i.e. folding conditions).The energy surfaces correspond to different possible mechanisms for protein folding.
Levinthal paradox: A ball dropped on this surface will never find itsway to the hole. Entropic trap.
Folding funnel: Many starting confor-mations rapidly collapse to the nativestructure.
Fixed pathway: One unique folding pathway.
Moats and traps: Easily accessible non-native statesslow down access to the native state. In rare cases,A and B can be of comparable depth and more than onestate may be accessible (prion diseases).
Rugged energy landscape: Lots of funnels, moats, andtraps -- most of the time required for folding is spentgetting out of misfolded states. There are always a fewmolecules that fold nearly instantaneously. Chaperonesact by unfolding the misfolded states.
Images from Dill and Chan,Nature Structural Biology, 1997http://www.dillgroup.ucsf.edu/