2022
DOI: 10.3390/ijerph191710881
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Novel Approaches for Inhibiting the Indoor Allergen Der f 2 Excreted from House Dust Mites by Todomatsu Oil Produced from Woodland Residues

Abstract: House dust mite (HDM) is a globally ubiquitous domestic cause of allergic diseases. There is a pressing demand to discover efficient, harmless, and eco-friendly natural extracts to inhibit HDM allergens that are more likely to trigger allergies and challenging to be prevented entirely. This study, therefore, is aimed at assessing the inhibition of the allergenicity of major HDM allergen Der f 2 by todomatsu oil extracted from residues of Abies Sachalinensis. The inhibition was investigated experimentally (usin… Show more

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Cited by 3 publications
(6 citation statements)
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“…An automated docking simulation, widely applied during the computer-aided drug design process [55], was achieved with PyRx software 0.8v (San Diego, CA, USA) to disclose the docking modes of todomatsu oil components to the target allergen Cry j 1. The todomatsu oil components (Table A1 in Appendix A), comprising bornyl acetate (25.75%), camphene (20.25%), α-pinene (18.25%), β-phellandrene (12.05%), β-pinene (7.55%), limonene (5.75%), β-myrcene (4.45%), tricyclene (2.25%), β-maaliene (1.25%), borneol (1.00%), α-terpinolene (0.95%), and 3-carene (0.50%), were supplied by Japan Aroma Laboratory Co., Ltd. [45][46][47]. Their structures were obtained in SDF format from the PubChem database (https://pubchem.ncbi.nlm.nih.gov/, accessed on 28 December 2022) and converted to PDBQT format in Open Babel of PyRx [46,47,[55][56][57][58].…”
Section: Blind Molecular Docking Approach Modeling the Docking Modesmentioning
confidence: 99%
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“…An automated docking simulation, widely applied during the computer-aided drug design process [55], was achieved with PyRx software 0.8v (San Diego, CA, USA) to disclose the docking modes of todomatsu oil components to the target allergen Cry j 1. The todomatsu oil components (Table A1 in Appendix A), comprising bornyl acetate (25.75%), camphene (20.25%), α-pinene (18.25%), β-phellandrene (12.05%), β-pinene (7.55%), limonene (5.75%), β-myrcene (4.45%), tricyclene (2.25%), β-maaliene (1.25%), borneol (1.00%), α-terpinolene (0.95%), and 3-carene (0.50%), were supplied by Japan Aroma Laboratory Co., Ltd. [45][46][47]. Their structures were obtained in SDF format from the PubChem database (https://pubchem.ncbi.nlm.nih.gov/, accessed on 28 December 2022) and converted to PDBQT format in Open Babel of PyRx [46,47,[55][56][57][58].…”
Section: Blind Molecular Docking Approach Modeling the Docking Modesmentioning
confidence: 99%
“…The todomatsu oil components (Table A1 in Appendix A), comprising bornyl acetate (25.75%), camphene (20.25%), α-pinene (18.25%), β-phellandrene (12.05%), β-pinene (7.55%), limonene (5.75%), β-myrcene (4.45%), tricyclene (2.25%), β-maaliene (1.25%), borneol (1.00%), α-terpinolene (0.95%), and 3-carene (0.50%), were supplied by Japan Aroma Laboratory Co., Ltd. [45][46][47]. Their structures were obtained in SDF format from the PubChem database (https://pubchem.ncbi.nlm.nih.gov/, accessed on 28 December 2022) and converted to PDBQT format in Open Babel of PyRx [46,47,[55][56][57][58]. The predicted 3D structure of allergen Cry j 1 (AlphaFold DB: P18632) was retrieved simultaneously from the AlphaFold Protein Structure Database (https://alphafold.ebi.ac.uk/, accessed on 28 December 2022) (Figure 1) and transformed to a macromolecular form in PyRx [46,47,[55][56][57][58].…”
Section: Blind Molecular Docking Approach Modeling the Docking Modesmentioning
confidence: 99%
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