Relative orientation of collagen molecules within a fibril: A homology model for homo sapiens type I collagen.
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Date
30/01/2018
Open Access Location
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Publisher
Taylor & Francis
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Abstract
Type I collagen is an essential extracellular protein that plays an important structural role in tissues that require high tensile strength. However, owing to the molecule’s size, to date no experimental structural data are available for the Homo sapiens species. Therefore, there is a real need to develop a reliable homology model and a method to study the packing of the collagen molecules within the fibril. Through the use of the homology model and implementation of a novel simulation technique, we have ascertained the orientations of the collagen molecules within a fibril, which is currently below the resolution limit of experimental techniques. The longitudinal orientation of collagen molecules within a fibril has a significant effect on the mechanical and biological properties of the fibril, owing to the different amino acid side-chains available at the interface between the molecules.
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Keywords
collagen, computational biology, extracellular matrix protein, fibril, homology modelling, molecular dynamics, orientation, protein structure, Amyloid, Collagen, Collagen Type I, Humans, Molecular Dynamics Simulation, Structure-Activity Relationship
Citation
J Biomol Struct Dyn, 2019, 37 (2), pp. 537 - 549