ACP-DPE：用于抗癌肽预测的双通道深度学习模型。

IF 1.9 4区生物学 Q4 CELL BIOLOGY

IET Systems Biology Pub Date : 2025-03-22 DOI:10.1049/syb2.70010

Guohua Huang, Yujie Cao, Qi Dai, Weihong Chen

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引用次数: 0

摘要

癌症是由不受控制的细胞生长引起的一种严重而复杂的疾病，正在成为全世界死亡的主要原因之一。抗癌肽（anti - cancer peptides, ACPs）作为一种低毒性的生物活性肽，是一种很有前景的有效治疗癌症的手段。由于实验条件的限制，确定acp具有挑战性。为了解决这个问题，我们提出了一种基于双通道的深度学习方法，称为ACP- dpe，用于ACP预测。ACP-DPE由两个并行通道组成：一个是嵌入层，后面是双向门控循环单元（Bi-GRU）模块；另一个是自适应嵌入层，后面是扩展卷积模块。Bi-GRU模块捕获了肽序列依赖性，而扩展卷积模块表征了氨基酸的局部关系。实验结果表明，ACP-DPE的准确率为82.81%，灵敏度为86.63%，分别比现有方法高3.86%和5.1%。这些发现证明了ACP- dpe预测ACP的有效性，并突出了其作为癌症治疗研究中有价值工具的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

ACP-DPE: A Dual-Channel Deep Learning Model for Anticancer Peptide Prediction

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ACP-DPE: A Dual-Channel Deep Learning Model for Anticancer Peptide Prediction

Cancer is a serious and complex disease caused by uncontrolled cell growth and is becoming one of the leading causes of death worldwide. Anticancer peptides (ACPs), as a bioactive peptide with lower toxicity, emerge as a promising means of effectively treating cancer. Identifying ACPs is challenging due to the limitation of experimental conditions. To address this, we proposed a dual-channel-based deep learning method, termed ACP-DPE, for ACP prediction. The ACP-DPE consisted of two parallel channels: one was an embedding layer followed by the bi-directional gated recurrent unit (Bi-GRU) module, and the other was an adaptive embedding layer followed by the dilated convolution module. The Bi-GRU module captured the peptide sequence dependencies, whereas the dilated convolution module characterised the local relationship of amino acids. Experimental results show that ACP-DPE achieves an accuracy of 82.81% and a sensitivity of 86.63%, surpassing the state-of-the-art method by 3.86% and 5.1%, respectively. These findings demonstrate the effectiveness of ACP-DPE for ACP prediction and highlight its potential as a valuable tool in cancer treatment research.

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来源期刊

IET Systems Biology 生物-数学与计算生物学

CiteScore

4.20

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： IET Systems Biology covers intra- and inter-cellular dynamics, using systems- and signal-oriented approaches. Papers that analyse genomic data in order to identify variables and basic relationships between them are considered if the results provide a basis for mathematical modelling and simulation of cellular dynamics. Manuscripts on molecular and cell biological studies are encouraged if the aim is a systems approach to dynamic interactions within and between cells. The scope includes the following topics: Genomics, transcriptomics, proteomics, metabolomics, cells, tissue and the physiome; molecular and cellular interaction, gene, cell and protein function; networks and pathways; metabolism and cell signalling; dynamics, regulation and control; systems, signals, and information; experimental data analysis; mathematical modelling, simulation and theoretical analysis; biological modelling, simulation, prediction and control; methodologies, databases, tools and algorithms for modelling and simulation; modelling, analysis and control of biological networks; synthetic biology and bioengineering based on systems biology.