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英文:Plasma protein binding prediction focusing on residue-level features and circularity of cyclic peptides by deep learning 
著者
和文: 李佳男, 柳澤 渓甫, 吉川 寧, 大上 雅史, 秋山 泰.  
英文: Jianan Li, Yanagisawa K, Yoshikawa Y, Ohue M, Akiyama Y..  
言語 English 
掲載誌/書名
和文: 
英文:Bioinformatics 
巻, 号, ページ Volume 38    Issue 4    1110-1117
出版年月 2022年2月15日 
出版者
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会議名称
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公式リンク https://academic.oup.com/bioinformatics/issue/38/4
 
DOI https://doi.org/10.1093/bioinformatics/btab726
アブストラクト Motivation: In recent years, cyclic peptide drugs have been receiving increasing attention because they can target proteins that are difficult to be tackled by conventional small-molecule drugs or antibody drugs. Plasma protein binding rate (%PPB) is a significant pharmacokinetic property of a compound in drug discovery and design. However, due to structural differences, previous computational prediction methods developed for small-molecule compounds cannot be successfully applied to cyclic peptides, and methods for predicting the PPB rate of cyclic pep- tides with high accuracy are not yet available. Results: Cyclic peptides are larger than small molecules, and their local structures have a considerable impact on PPB; thus, molecular descriptors expressing residue-level local features of cyclic peptides, instead of those express- ing the entire molecule, as well as the circularity of the cyclic peptides should be considered. Therefore, we developed a prediction method named CycPeptPPB using deep learning that considers both factors. First, the macrocycle ring of cyclic peptides was decomposed residue by residue. The residue-based descriptors were arranged according to the sequence information of the cyclic peptide. Furthermore, the circular data augmentation method was used, and the circular convolution method CyclicConv was devised to express the cyclic structure. CycPeptPPB exhibited excellent performance, with mean absolute error (MAE) of 4.79% and correlation coefficient (R) of 0.92 for the public drug dataset, compared to the prediction performance of the existing PPB rate prediction software (MAE 1⁄4 15:08%; R 1⁄4 0:63). Availability and implementation: The data underlying this article are available in the online supplementary material. The source code of CycPeptPPB is available at https://github.com/akiyamalab/cycpeptppb. Contact: [email protected] Supplementary information: Supplementary data are available at Bioinformatics online.

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