CycleDesigner: Leveraging CycRFdiffusion and HighFold to Design Cyclic Peptide Binders for Specific Targets

Chenhao Zhang; Zhenyu Xu; Kang Lin; Ning Zhu; Chengyun Zhang; Wen Xu; Jingjing Guo; An Su; Chengxi Li; Hongliang Duan

doi:10.1021/acs.jcim.5c00227

CycleDesigner: Leveraging CycRFdiffusion and HighFold to Design Cyclic Peptide Binders for Specific Targets

Chenhao Zhang, Zhenyu Xu, Kang Lin, Ning Zhu, Chengyun Zhang, Wen Xu, Jingjing Guo, An Su, Chengxi Li, Hongliang Duan

研究成果: Article › 同行評審

摘要

Cyclic peptides are potentially therapeutic in clinical applications, due to their great stability and activity. Yet, designing and identifying potential cyclic peptide binders targeting specific targets remains a formidable challenge, entailing significant time and resources. In this study, we modified the powerful RFdiffusion model to allow the cyclic peptide structure identification (CycRFdiffusion) and integrated it with ProteinMPNN and HighFold to design binders for specific targets. This innovative approach, termed CycleDesigner, was followed by a series of scoring functions for efficient filtering. With the combination of effective cyclic peptide design and filtering, our study aims to further broaden the scope of cyclic peptide binder design.

原文	English
頁（從 - 到）	6155-6165
頁數	11
期刊	Journal of Chemical Information and Modeling
卷	65
發行號	12
DOIs	https://doi.org/10.1021/acs.jcim.5c00227
出版狀態	Published - 23 6月 2025

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10.1021/acs.jcim.5c00227

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abstract = "Cyclic peptides are potentially therapeutic in clinical applications, due to their great stability and activity. Yet, designing and identifying potential cyclic peptide binders targeting specific targets remains a formidable challenge, entailing significant time and resources. In this study, we modified the powerful RFdiffusion model to allow the cyclic peptide structure identification (CycRFdiffusion) and integrated it with ProteinMPNN and HighFold to design binders for specific targets. This innovative approach, termed CycleDesigner, was followed by a series of scoring functions for efficient filtering. With the combination of effective cyclic peptide design and filtering, our study aims to further broaden the scope of cyclic peptide binder design.",

author = "Chenhao Zhang and Zhenyu Xu and Kang Lin and Ning Zhu and Chengyun Zhang and Wen Xu and Jingjing Guo and An Su and Chengxi Li and Hongliang Duan",

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T2 - Leveraging CycRFdiffusion and HighFold to Design Cyclic Peptide Binders for Specific Targets

AU - Zhang, Chenhao

AU - Xu, Zhenyu

AU - Lin, Kang

AU - Zhu, Ning

AU - Zhang, Chengyun

AU - Xu, Wen

AU - Guo, Jingjing

AU - Su, An

AU - Li, Chengxi

AU - Duan, Hongliang

PY - 2025/6/23

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N2 - Cyclic peptides are potentially therapeutic in clinical applications, due to their great stability and activity. Yet, designing and identifying potential cyclic peptide binders targeting specific targets remains a formidable challenge, entailing significant time and resources. In this study, we modified the powerful RFdiffusion model to allow the cyclic peptide structure identification (CycRFdiffusion) and integrated it with ProteinMPNN and HighFold to design binders for specific targets. This innovative approach, termed CycleDesigner, was followed by a series of scoring functions for efficient filtering. With the combination of effective cyclic peptide design and filtering, our study aims to further broaden the scope of cyclic peptide binder design.

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CycleDesigner: Leveraging CycRFdiffusion and HighFold to Design Cyclic Peptide Binders for Specific Targets

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