Design of a machine learning-aided screening framework for antibiofilm peptides

IF 3 Q2 ENGINEERING, CHEMICAL
Hema Chandra Puchakayala , Pranshul Bhatnagar , Pranav Nambiar, Arnab Dutta, Debirupa Mitra
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引用次数: 0

Abstract

Biofilms are formed by multicellular colonies of microorganisms that are protected by hard extracellular matrices. Eradication of biofilms is a challenging task due to their recalcitrant nature and thus biofilm formation poses a global threat to public health. In this regard, antibiofilm peptides are a promising class of therapeutics that are active against biofilms. However, large-scale experimental screening and testing of peptides for antibiofilm activity is a resource-intensive task. In this study, a machine learning-aided design framework is proposed to aid in screening of antibiofilm peptides. An SVM-based binary classification model is developed using amino acid compositions, sequence, and physicochemical properties of peptides as independent features. The physicochemical property-based model developed in this study achieved the highest accuracy of 97.9%, which is found to be substantially higher than the other feature representation techniques. The explainability of this model is performed using SHAP analysis. Results obtained show that amphiphilicity, aliphaticity and cationicity have positive correlation whereas steric parameter, length, and volume have negative correlation with antibiofilm activity of peptides. The developed model can be accessed freely via web tool: AntiBFP.

Abstract Image

一种基于机器学习的抗生物膜肽筛选框架的设计
生物膜是由坚硬的细胞外基质保护的微生物的多细胞菌落形成的。由于生物膜的顽固性,根除生物膜是一项具有挑战性的任务,因此生物膜的形成对公众健康构成了全球性威胁。在这方面,抗生物膜肽是一类很有前途的治疗药物,对生物膜有活性。然而,大规模的实验筛选和测试肽的抗生物膜活性是一项资源密集型的任务。在这项研究中,提出了一个机器学习辅助设计框架,以帮助筛选抗生素膜肽。以肽的氨基酸组成、序列和理化性质为独立特征,建立了基于支持向量机的二分类模型。本研究开发的基于物理化学性质的模型达到了97.9%的最高准确率,大大高于其他特征表示技术。该模型的可解释性是使用SHAP分析来执行的。结果表明,多肽的两亲性、脂肪性和阳离子性与抗菌膜活性呈正相关,而空间参数、长度和体积与抗菌膜活性呈负相关。开发的模型可以通过web工具AntiBFP自由访问。
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CiteScore
3.10
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0.00%
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