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ISAAC
2003
Springer

Geometric Restrictions on Producible Polygonal Protein Chains

14 years 4 months ago
Geometric Restrictions on Producible Polygonal Protein Chains
Fixed-angle polygonal chains in 3D serve as an interesting model of protein backbones. Here we consider such chains produced inside a “machine” modeled crudely as a cone, and examine the constraints this model places on the producible chains. We call this notion producible, and prove as our main result that a chain whose maximum turn angle is α is producible in a cone of half-angle ≥ α if and only if the chain is flattenable, that is, the chain can be reconfigured without self-intersection to lie flat in a plane. This result establishes that two seemingly disparate classes of chains are in fact identical. Along the way, we discover that all producible configurations of a chain can be moved to a canonical configuration resembling a helix. One consequence is an algorithm that reconfigures between any two flat states of a “nonacute chain” in O(n) “moves,” improving the O(n2 )-move algorithm in [ADD+ 02]. Finally, we prove that the producible chains are rare in the f...
Erik D. Demaine, Stefan Langerman, Joseph O'Rourke
Added 07 Jul 2010
Updated 07 Jul 2010
Type Conference
Year 2003
Where ISAAC
Authors Erik D. Demaine, Stefan Langerman, Joseph O'Rourke
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