Fu Gang Yan scite author profile

Background: Protein–peptide recognition plays an essential role in the orchestration and regulation of cell signaling networks, which is estimated to be responsible for up to 40% of biological interaction events in the human interactome and has recently been recognized as a new and attractive druggable target for drug development and disease intervention. Methods: We present a systematic review on the application of machine learning techniques in the quantitative modeling and prediction of protein–peptide binding affinity, particularly focusing on its implications for therapeutic peptide design. We also briefly introduce the physical quantities used to characterize protein–peptide affinity and attempt to extend the content of generalized machine learning methods. Results: Existing issues and future perspective on the statistical modeling and regression prediction of protein– peptide binding affinity are discussed. Conclusion: There is still a long way to go before establishment of general, reliable and efficient machine leaningbased protein–peptide affinity predictors.

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Self-binding peptides: Binding-upon-folding versus folding-upon-binding

Yan

Miao

et al. 2019

Journal of Theoretical Biology

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Cutting temperature and tool wear of hard turning hardened bearing steel

Liu

Wen

et al. 2002

Journal of Materials Processing Technology

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Fu Gang Yan

Is protein context responsible for peptide-mediated interactions?

Machine Learning in Quantitative Protein–peptide Affinity Prediction: Implications for Therapeutic Peptide Design

Self-binding peptides: Binding-upon-folding versus folding-upon-binding

Cutting temperature and tool wear of hard turning hardened bearing steel

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