Aggregation Rules of Short Peptides

IF 8.5 Q1 CHEMISTRY, MULTIDISCIPLINARY
Jiaqi Wang, Zihan Liu, Shuang Zhao, Yu Zhang, Tengyan Xu*, Stan Z. Li* and Wenbin Li*, 
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Abstract

The elucidation of aggregation rules for short peptides (e.g., tetrapeptides and pentapeptides) is crucial for the precise manipulation of aggregation. In this study, we derive comprehensive aggregation rules for tetrapeptides and pentapeptides across the entire sequence space based on the aggregation propensity values predicted by a transformer-based deep learning model. Our analysis focuses on three quantitative aspects. First, we investigate the type and positional effects of amino acids on aggregation, considering both the first- and second-order contributions. By identifying specific amino acids and amino acid pairs that promote or attenuate aggregation, we gain insights into the underlying aggregation mechanisms. Second, we explore the transferability of aggregation propensities between tetrapeptides and pentapeptides, aiming to explore the possibility of enhancing or mitigating aggregation by concatenating or removing specific amino acids at the termini. Finally, we evaluate the aggregation morphologies of over 20,000 tetrapeptides, regarding the morphology distribution and type and positional contributions of each amino acid. This work extends the existing aggregation rules from tripeptide sequences to millions of tetrapeptide and pentapeptide sequences, offering experimentalists an explicit roadmap for fine-tuning the aggregation behavior of short peptides for diverse applications, including hydrogels, emulsions, or pharmaceuticals.

Abstract Image

短肽的聚集规则
阐明短肽(如四肽和五肽)的聚集规则对于精确操纵聚集至关重要。在本研究中,我们根据基于变换器的深度学习模型预测的聚集倾向值,在整个序列空间中得出了四肽和五肽的综合聚集规则。我们的分析侧重于三个定量方面。首先,我们研究了氨基酸的类型和位置对聚集的影响,同时考虑了一阶和二阶贡献。通过识别促进或减弱聚集的特定氨基酸和氨基酸对,我们深入了解了潜在的聚集机制。其次,我们探讨了四肽和五肽之间聚集倾向的可转移性,旨在探索通过连接或移除末端的特定氨基酸来增强或减轻聚集的可能性。最后,我们评估了 20,000 多条四肽的聚集形态,涉及形态分布以及每个氨基酸的类型和位置贡献。这项工作将现有的三肽序列聚集规则扩展到了数百万个四肽和五肽序列,为实验人员提供了一个明确的路线图,用于微调短肽的聚集行为,以满足水凝胶、乳液或药物等不同应用的需要。
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
CiteScore
9.10
自引率
0.00%
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0
审稿时长
10 weeks
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