1. Alternatingly twisted β-hairpins and nonglycine residues in the disallowed II′ region of the Ramachandran plot
- Author
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Ivan Y. Torshin, Natalya G. Esipova, and Vladimir G. Tumanyan
- Subjects
Models, Molecular ,Protein Denaturation ,Protein Folding ,Bioinformatics analysis ,Protein Conformation ,Stereochemistry ,In silico ,Glycine ,Protein Data Bank (RCSB PDB) ,Molecular Dynamics Simulation ,Protein Structure, Secondary ,SH3 domain ,src Homology Domains ,Molecular dynamics ,Structural Biology ,Molecular Biology ,Hydrogen bond ,Chemistry ,Spectrin ,Hydrogen Bonding ,General Medicine ,Protein Structure, Tertiary ,Crystallography ,Domain (ring theory) ,Asparagine ,Ramachandran plot - Abstract
The structure of the SH3 domain of α-spectrin (PDB code 1SHG) features Asn47 in the II' area of the Ramachandran plot, which as a rule admits only glycine residues, and this phenomenon still awaits its explanation. Here, we undertook a computational study of this particular case by means of molecular dynamics and bioinformatics approaches. We found that the region of the SH3 domain in the vicinity of Asn47 remains relatively stable during denaturing molecular dynamics simulations of the entire domain and of its parts. This increased stability may be connected with the dynamic hydrogen bonding that is susceptible to targeted in silico mutations of Arg49. Bioinformatics analysis indicated that Asn47 is in the β-turn of a distinctive structural fragment we called 'alternatingly twisted β-hairpin.' Fragments of similar conformation are quite abundant in a nonredundant set of PDB chains and are distinguished from ordinary β-hairpins by some surplus of glycine in their β-turns, lack of certain interpeptide hydrogen bonds, and an increased chirality index. Thus, the disallowed conformation of residues other than glycine is realized in the β-turns of alternatingly twisted β-hairpins.
- Published
- 2013
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