Quaternion-based definition of protein secondary structure straightness and its relationship to Ramachandran angles

Robert M. Hanson; Daniel Kohler; Steven G. Braun

doi:10.1002/prot.23037

Quaternion-based definition of protein secondary structure straightness and its relationship to Ramachandran angles

Robert M. Hanson, Daniel Kohler, Steven G. Braun

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11 Scopus citations

Abstract

We describe here definitions of "local helical axis" and "straightness" that are developed using a simple quaternion-based analysis of protein structure without resort to least-squares fitting. As part of this analysis, it is shown how quaternion differences can be visualized to depict accurately the local helical axis relating any two adjacent amino acid residues in standard, nonidealized proteins. Three different options for the definition of amino acid residue orientation in terms of quaternion frames are described. Two of these, the "C _α frame" and the "P frame," are shown to be correlated strongly with a simple approximate measure derived solely from Ramachandran angles. The relationship between quaternion-based straightness and recognized DSSP-derived secondary structure motifs is discussed.

Original language	English (US)
Pages (from-to)	2172-2180
Number of pages	9
Journal	Proteins: Structure, Function and Bioinformatics
Volume	79
Issue number	7
DOIs	https://doi.org/10.1002/prot.23037
State	Published - Jul 2011
Externally published	Yes

Keywords

DSSP
Identification of PDB anomalies
Quantifying structural regularity
Quaternion frames

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AU - Hanson, Robert M.

AU - Kohler, Daniel

AU - Braun, Steven G.

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AB - We describe here definitions of "local helical axis" and "straightness" that are developed using a simple quaternion-based analysis of protein structure without resort to least-squares fitting. As part of this analysis, it is shown how quaternion differences can be visualized to depict accurately the local helical axis relating any two adjacent amino acid residues in standard, nonidealized proteins. Three different options for the definition of amino acid residue orientation in terms of quaternion frames are described. Two of these, the "C α frame" and the "P frame," are shown to be correlated strongly with a simple approximate measure derived solely from Ramachandran angles. The relationship between quaternion-based straightness and recognized DSSP-derived secondary structure motifs is discussed.

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KW - Identification of PDB anomalies

KW - Quantifying structural regularity

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Quaternion-based definition of protein secondary structure straightness and its relationship to Ramachandran angles

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Keywords

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