Topology to geometry in protein folding: β-Lactoglobulin
Open Access
- 12 December 2000
- journal article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 97 (26) , 14062-14066
- https://doi.org/10.1073/pnas.260359997
Abstract
Evolution of protein structure from random coil to native is first represented topologically by its time-dependent sequences of discretized Ramachandran basins occupied by successive backbone residues. Introducing energetic and entropic criteria at each instant of observation transforms the description from a structurally ambiguous topological representation to an unambiguous geometric picture of the folding process. The method is applied with success to folding of β-lactoglobulin, traditionally perplexing because of its reputed nonhierarchical folding pattern. This molecule passes through a stage, ca. 0.1 μs duration, of transient, “flickering” α-helical structure, until a bit of tertiary structure forms that stabilizes the system long enough to allow it to pass to its native β-sheet.Keywords
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