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Discrete Frenet frame, inflection point solitons, and curve visualization with applications to folded proteins

Authors :
Hu, Shuangwei
Lundgren, Martin
Niemi, Antti J.
Hu, Shuangwei
Lundgren, Martin
Niemi, Antti J.
Publication Year :
2011

Abstract

We develop a transfer matrix formalism to visualize the framing of discrete piecewise linear curves in three-dimensional space. Our approach is based on the concept of an intrinsically discrete curve. This enables us to more effectively describe curves that in the limit where the length of line segments vanishes approach fractal structures in lieu of continuous curves. We verify that in the case of differentiable curves the continuum limit of our discrete equation reproduces the generalized Frenet equation. In particular, we draw attention to the conceptual similarity between inflection points where the curvature vanishes and topologically stable solitons. As an application we consider folded proteins, their Hausdorff dimension is known to be fractal. We explain how to employ the orientation of C-beta carbons of amino acids along a protein backbone to introduce a preferred framing along the backbone. By analyzing the experimentally resolved fold geometries in the Protein Data Bank we observe that this C-beta framing relates intimately to the discrete Frenet framing. We also explain how inflection points (a.k.a. soliton centers) can be located in the loops and clarify their distinctive role in determining the loop structure of folded proteins.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1234346563
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1103.PhysRevE.83.061908