[In Silico analysis of molecular mimic between Der p 23 against allergenic sources].

Revista alergia Mexico (Tecamachalco, Puebla, Mexico : 1993) Pub Date : 2024-02-01 DOI:10.29262/ram.v71i1.1377

Andrés Sánchez-Caraballo, Valentina García-Solano, Sonia Karina González-Rangel, Valeria Grattz-Lamadrid, Marlon Múnera-Gomez

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Abstract

Objective: To identify through In Silico analysis the possible molecular mimicry between Der p 23 and antigens from allergenic sources.

Methods: Identity was sought between Der p 23 and proteins from the mite families Pyroglyphidae, Acaridae, Chortoglyphidae and Echimyopodidae, through PSI-BLAST and They used PRALINE and EMBOSS for the alignments. Antigens with resolved experimental structure were obtained from Protein Data Bank and those not reported were generated using Swiss Model server and ALPHAFOLD 2. Epitope prediction was carried out with the Ellipro server and Pymol 2.3 was used to visualize the 3D models.

Results: The analysis between Pyroglyphidae allergens and Der p 23 showed identity with the endochitinase-like protein of D. pteronyssinus, and the type 2 chitin binding domain of D. farinae, with identities between 85 and 100%, with coverage of 100%, and 75% respectively. The allergens Der f 23 and Der p 23 of D. farinae and D. pteronyssinus had 100% coverage with identities of 85.42% and 79.59%, respectively. Among the allergens of Tyrophagus putrescentiae, binding to chitin, oviduct-specific glycoprotein and Cda4p were included, which had identity values corresponding to 40%, 42.22% and 34.78%, with coverage values that did not exceed the 55%. No results were found for Chortoglyphidae and Echimyopodidae.

Conclusion: There is molecular mimicry and structural homology between Der P 23 and allergens from allergic sources of the Pyroglyphidae and Acaridae families. Potential epitopes were identified in Der p 23, which could present cross-reactivity with the proteins of the allergenic sources studied, which must be demonstrated in In vitro and In vivo studies. In vitro and in vivo work is needed to demonstrate the results obtained in the In Silico analysis.

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[针对过敏源的 Der p 23 分子模拟的硅学分析]。

目的：通过 In Silico 分析确定 Der p 23 与过敏源抗原之间可能存在的分子拟态关系：通过 In Silico 分析确定 Der p 23 与过敏源抗原之间可能存在的分子拟态：通过 PSI-BLAST，并使用 PRALINE 和 EMBOSS 进行比对，寻找 Der p 23 与螨科 Pyroglyphidae、Acaridae、Chortoglyphidae 和 Echimyopodidae 的蛋白质之间的相似性。使用 Ellipro 服务器进行表位预测，并使用 Pymol 2.3 将三维模型可视化：Pyroglyphidae 过敏原和 Der p 23 之间的分析表明，它们与 D. pteronyssinus 的内切酶样蛋白和 D. farinae 的 2 型几丁质结合结构域具有同一性，同一性介于 85 和 100%之间，覆盖率分别为 100%和 75%。D. farinae 和 D. pteronyssinus 的过敏原 Der f 23 和 Der p 23 的覆盖率为 100%，相同度分别为 85.42% 和 79.59%。在Tyrophagus putrescentiae的过敏原中，与几丁质、输卵管特异性糖蛋白和Cda4p结合的过敏原的同一性分别为40%、42.22%和34.78%，覆盖率不超过55%。没有发现 Chortoglyphidae 和 Echimyopodidae 的结果：结论：Der P 23 与来自蚜蝇科和螨虫科过敏源的过敏原之间存在分子拟态和结构同源性。在 Der P 23 中发现了潜在的表位，这些表位可能会与所研究的过敏源蛋白质产生交叉反应，这必须在体外和体内研究中加以证明。需要进行体外和体内研究，以证明在 Silico 分析中获得的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Revista alergia Mexico (Tecamachalco, Puebla, Mexico : 1993)

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