Biology – Quantitative Biology – Biomolecules
Scientific paper
2011-07-01
Biophys. J. 100, 2764-2772 (2011)
Biology
Quantitative Biology
Biomolecules
28 pages, 7 figures
Scientific paper
Two-state cooperativity is an important characteristic in protein folding. It is defined by a depletion of states lying energetically between folded and unfolded conformations. While there are different ways to test for two-state cooperativity, most of them probe indirect proxies of this depletion. Yet, generalized-ensemble computer simulations allow to unambiguously identify this transition by a microcanonical analysis on the basis of the density of states. Here we perform a detailed characterization of several helical peptides using coarse-grained simulations. The level of resolution of the coarse-grained model allows to study realistic structures ranging from small alpha-helices to a de novo three-helix bundle - without biasing the force field toward the native state of the protein. Linking thermodynamic and structural features shows that while short alpha-helices exhibit two-state cooperativity, the type of transition changes for longer chain lengths because the chain forms multiple helix nucleation sites, stabilizing a significant population of intermediate states. The helix bundle exhibits the signs of two-state cooperativity owing to favorable helix-helix interactions, as predicted from theoretical models. The detailed analysis of secondary and tertiary structure formation fits well into the framework of several folding mechanisms and confirms features observed so far only in lattice models.
Bachmann Michael
Bereau Tristan
Deserno Markus
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