IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides
Amundarain MJ, Vietri A, Dodero VI, Costabel MD (2023)
Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter.
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Einrichtung
Abstract / Bemerkung
The 33-mer gliadin peptide and its deamidated metabolite, 33-mer DGP, are the immunodominant peptides responsible for the adaptive immune response in celiac disease (CD). CD is a complex autoimmune chronic disorder triggered by gluten ingestion that affects the small intestine and affects 1% of the global population. The 33-mers are polyproline II-rich (PPII) and intrinsically disordered peptides (IDPs), whose structures remain elusive. We sampled the conformational ensembles of both 33-mer peptides via molecular dynamics simulations employing two force fields (FFs) (Amber ff03ws and Amber ff99SB-disp) specifically validated for other IDPs. Our results show that both FFs allow the extensive exploration of the conformational landscape, which was not possible with the standard FF GROMOS53A6 reported before. Clustering analysis of the trajectories showed that the five largest clusters (78-88% of the total structures) present elongated, semielongated, and curved conformations in both FFs. Large average radius of gyration and solvent-exposed surfaces characterized these structures. While the structures sampled are similar, the Amber ff99SB-disp trajectories explored folded conformations with a higher probability. In addition, PPII secondary structure was preserved throughout the trajectories (58-73%) together with a non-negligible content of beta structures (11-23%), in agreement with previous experimental results. This work represents the initial step in studying further the interaction of these peptides with other biologically relevant molecules, which could lead to finally disclose the molecular events that lead to CD.
Erscheinungsjahr
2023
Zeitschriftentitel
Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter
eISSN
1520-5207
Page URI
https://pub.uni-bielefeld.de/record/2969702
Zitieren
Amundarain MJ, Vietri A, Dodero VI, Costabel MD. IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter. 2023.
Amundarain, M. J., Vietri, A., Dodero, V. I., & Costabel, M. D. (2023). IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter. https://doi.org/10.1021/acs.jpcb.3c00200
Amundarain, Maria Julia, Vietri, Agustin, Dodero, Veronica Isabel, and Costabel, Marcelo D. 2023. “IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides”. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter.
Amundarain, M. J., Vietri, A., Dodero, V. I., and Costabel, M. D. (2023). IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter.
Amundarain, M.J., et al., 2023. IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter.
M.J. Amundarain, et al., “IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides”, Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter, 2023.
Amundarain, M.J., Vietri, A., Dodero, V.I., Costabel, M.D.: IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter. (2023).
Amundarain, Maria Julia, Vietri, Agustin, Dodero, Veronica Isabel, and Costabel, Marcelo D. “IDP Force Fields Applied to Model PPII-Rich 33-mer Gliadin Peptides”. Journal of Physical Chemistry B: Biophysics, Biomaterials, Liquids, and Soft Matter (2023).
Daten bereitgestellt von European Bioinformatics Institute (EBI)
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Daten bereitgestellt von Europe PubMed Central.
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Daten bereitgestellt von Europe PubMed Central.
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