Geometric Analysis of Alloreactive HLAα-Helices | Zendy

Reiner Ribarics | Zendy; Rudolf Karch | Zendy; Nevena Ilieva | Zendy; Wolfgang Schreiner | Zendy

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Geometric Analysis of Alloreactive HLAα-Helices

Author(s) -

Reiner Ribarics,

Rudolf Karch,

Nevena Ilieva,

Wolfgang Schreiner

Publication year - 2014

Publication title -

biomed research international

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.772

H-Index - 126

eISSN - 2314-6141

pISSN - 2314-6133

DOI - 10.1155/2014/943186

Subject(s) - major histocompatibility complex , helix (gastropod) , computational biology , human leukocyte antigen , chemistry , computer science , biology , genetics , antigen , ecology , snail

Molecular dynamics (MD) is a valuable tool for the investigation of functional elements in biomolecules, providing information on dynamic properties and processes. Previous work by our group has characterized static geometric properties of the two MHC α -helices comprising the peptide binding region recognized by T cells. We build upon this work and used several spline models to approximate the overall shape of MHC α -helices. We applied this technique to a series of MD simulations of alloreactive MHC molecules that allowed us to capture the dynamics of MHC α -helices' steric configurations. Here, we discuss the variability of spline models underlying the geometric analysis with varying polynomial degrees of the splines.

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