Physicochemical and sequence determinants of antiviral peptides.

IF 1.8 4区 生物学 Q3 BIOLOGY
Biologia futura Pub Date : 2023-12-01 Epub Date: 2023-10-27 DOI:10.1007/s42977-023-00188-x
Abhigyan Nath
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Abstract

Antiviral peptides (AVPs) open new possibilities as an effective antiviral therapeutic in the current scenario of evolving drug-resistant viruses. Knowledge about the sequence and structure activity relationship in AVPs is still largely unknown. AVPs and antimicrobial peptides (AMPs) share several common features but as they target different life forms (living organisms and viruses), exploring the differential sequence features may facilitate in designing specific AVPs. The current work developed accurate prediction models for discriminating (a) AVPs from AMPs, (b) Coronaviridae AVPs from other virus family specific AVPs and (c) highly active AVPs (HAA) from lowly active AVPs (LAA). Further explainable machine learning methods (using model agnostic global interpretable methods) are utilized for exploring and interpreting the physicochemical spaces of AVPs, Coronaviridae AVPs and highly active AVPs. To further understand the association of physicochemical space distribution with pIC50 values, regression models were developed and analyzed using accumulated local effects and interaction strength analysis. An independent sample t-test is used to filter out the significant compositional differences between the smaller length HAA and longer length HAA groups. AVPs prefer lower charge/length ratio and basic residues in comparison with AMPs. Coronaviridae family-specific AVPs have lower propensities for basic amino acids, charge and preference for aspartic acid. Further there is prevalence for basic residues in lowly active AVPs as compared to highly active AVPs. Sequence order effects captured in terms of average amino acid pair distances proved to be more constructive in deciphering the sequences of AVPs.

Abstract Image

抗病毒肽的物理化学和序列决定因素。
抗病毒肽(AVPs)作为一种有效的抗病毒治疗方法,在当前耐药病毒不断发展的情况下开辟了新的可能性。关于AVP的序列和结构-活性关系的知识在很大程度上仍然未知。AVP和抗菌肽(AMP)有几个共同的特征,但由于它们针对不同的生命形式(活生物体和病毒),探索差异序列特征可能有助于设计特定的AVP。目前的工作开发了准确的预测模型,用于区分(a)AVP和AMP,(b)冠状病毒科AVP和其他病毒家族特异性AVP,以及(c)高活性AVP(HAA)和低活性AVP。进一步的可解释机器学习方法(使用模型不可知的全局可解释方法)被用于探索和解释AVP、冠状病毒科AVP和高活性AVP的物理化学空间。为了进一步了解物理化学空间分布与pIC50值的关联,使用累积局部效应和相互作用强度分析来开发和分析回归模型。使用独立样本t检验来过滤较小长度HAA和较长长度HAA组之间的显著成分差异。与AMP相比,AVP更喜欢较低的电荷/长度比和碱性残基。冠状病毒家族特异性AVP对碱性氨基酸、电荷和天冬氨酸的偏好性较低。此外,与高活性AVP相比,低活性AVP中存在碱性残基的普遍性。根据平均氨基酸对距离捕获的序列顺序效应被证明在破译AVP序列方面更具建设性。
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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来源期刊
Biologia futura
Biologia futura Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.50
自引率
0.00%
发文量
27
期刊介绍: How can the scientific knowledge we possess now influence that future? That is, the FUTURE of Earth and life − of humankind. Can we make choices in the present to change our future? How can 21st century biological research ask proper scientific questions and find solid answers? Addressing these questions is the main goal of Biologia Futura (formerly Acta Biologica Hungarica). In keeping with the name, the new mission is to focus on areas of biology where major advances are to be expected, areas of biology with strong inter-disciplinary connection and to provide new avenues for future research in biology. Biologia Futura aims to publish articles from all fields of biology.
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